Post on 10-May-2020
E13 940207 35 3
CENTRAL LABORATORIES SERVICES
FINAL REPORT
TESTING TO DETERMINE AMPACITY DERATING FACTORS FOR
3M FIRE BARRIER WRAPPED CONDUITS AND AIR DROPS
JOB NUMBER 94-0357
Revision 0
February 3, 1994
C. L. RutledgeProject Engineer
cma. asF. A. Deviney 0
ngineering Services
W. E. Jo Iy IQujlity ssuran~ce
R. L. Morley I'CLS Manager
9403030227 940218PDR ADOCK 05000390A- -- PDR
l
REVISION LOGFINAL REPORT 94-0357
Revision PagesDate Affected Description of change Prepared by Approved by
Rev 002R03194 All Initial Issue C. L. Rutledge
= . 4' .
: N
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TABLE OF CONTENTS
1.0 Summary
2.0 References
3.0 Quality Assurance
4.0 Receipt Inspection
5.0 Test Procedure
6.0 Analysis of Results
7.0 Attachments
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1.0 SUMMARY
The Central Laboratories Services (CLS) performed ampacityderating tests for cables in 3M electrical raceway fire barriersystems applied to air drops and conduit. The tests were patternedafter the draft IEEE Standard P848, "Procedure for theDetermination of the Ampacity Derating of Fire Protected Cables."
Each configuration was placed in the chamber and testedindividually. The following configurations were tested:
1" conduit consisting of one 10-foot section plus two 5-footsections containing 1-4/C #10 AWG cable
Small air drop consisting of 1-4/C #10 AWG cableLarge air drop consisting of 8-3/C #6 AWG cables
Testing consisted of:
1. Placing the bare cable/conduit assembly in a temperaturecontrolled test chamber.
2. Applying current to the cable to raise the temperature of thecable conductors to 900C.
3. Recording the current required to:
a. Maintain the cable temperature at 900C. +/- loC.b. In a test chamber ambient temperature of 400C +/- 20C.c. For a time period of at least 3 hours.d. During which the average rate of change of temperature did
not exceed +/- 0.20C/hr.e. The average temperatures at location #1 and location #3 were
within +/- 40C of the average temperature of location #2.(Attachment A, page A-1 1)
4. Wrapping the conduit/air drop with 5 layers of 3M M20A perAttachment H.
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5. Repeating steps 1, 2, and 3.
The testing was performed at CLS in Chattanooga, Tennessee. Theampacity testing began on November 19, 1993 and was completedon December 22, 1993.
1.1 Results
Description Corrected Normalized Current Derating FactorConduit, Bare 31.7A N/AConduit, 3M wrapped 22.6A 0.29
Small Air Drop, Bare 39.9A N/ASmall Air Drop, 3M wrapped 23.3A 0.42
Large Air Drop Bare 42.6A N/ALarge Air Drop, 3M wrapped 21.6A 0.49
1.2 Material Tested
1.2.1 Steel conduit
1-inch rigid steel conduit and couplings.
1.2.2 Cable
Small Air Drop and 1" Conduit
1-4/C #10 AWG Rockbestos, 600 V, Type PXMJ, DC 98, MarkWFO-2, 9ONLC-74556B.
Large Air Drop
8-3/C #6 AWG Rockbestos, 600V, Type PXMJ, Mark WFA-15,9ONLC-75670A-01.
1.2.3 3M Fire Barrier Material
4-foot lengths of 3M fire barrier material was installed on each ofthe three configurations. Five layers were installed on eachconfiguration. The lengthwise joints were installed at 1800 foralternating layers. The circumferential joints were staggered aminimum of 6 inches to ensure these joints did not line up.
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1.3 Testing Complete
All sections of the test plan and test plan revisions were completed.A total of six configurations were tested.
1.4 Anomalies
Six anomalies were noted during the test.
Anomaly 94-0005 was written to document two thermocouplesindicating open. This anomaly occurred after completion of the 1"conduit testing after the 1-4/C #10 AWG cable was removed fromthe conduit.
Resolution: The thermocouple beads were repaired, and theinstruments were recertified. Six thermocouples wereadded to the data logger and calibrated.
Anomaly 94-0006 was written to document that one of thethermocouples fell off of the surface of the cable during the baresmall air drop test. It is noted this thermocouple is not required byIEEE P848 but was added by TVA for Engineering Assessment.
Resolution: The thermocouple was attached to the cable after thethree hour test was completed but while the specimenwas still in equilibrium.
Anomaly 94-0007 was written to document some erratic readingsobtained during the required 3-hour equilibrium period. The glitchwas caused by some power transients resulting from other testingbeing conducted in the area.
Resolution: Waited until the other testing was completed tocontinue the ampacity test.
Anomaly 94-0008 was written to document the description of Xand Y on page B-1 was switched.
Resolution: No action required. The slope was correctly calculated;only the descriptions were reversed.
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Anomaly 94-0009 was written to document two thermocouplesindicating open after the 3M fire wrap was installed on the large airdrop specimen.
Resolution: Replace the thermocouples with different thermocouplesprior to testing.
Anomaly 94-0010 was written to document a broken thermocouplebead. This was found prior to performing the small air drop with3M wrap.
Resolution: Replaced the thermocouple with a differentthermocouple prior to testing.
Anomaly 94-0011 was written to document open and out oftolerance thermocouples identified during calibration at thecompletion of all testing. The magnitude of the error which wouldhave resulted from these conditions ensures that the thermocoupleswere damaged during specimen movement or disassembly.
Resolution: No action required. Do not perform post test calibrationfor these thermocouples.
2.0 REFERENCES
2.1 CLS-QAP-1.1 "Organization"
2.2 CLS-QAP-4.1 "M & TE Calibration Program"
2.3 CLS-QAP-4.7 "Engineering Services Program"
2.4 Engineering Scope of Work Document RIMS E13 931104 003Revision 0
2.5 Engineering Scope of Work Document RIMS T41 931111 984Revision 1
2.6 Engineering Scope of Work Document RIMS T41 931201 858Revision 2
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3.0 QUALITY ASSURANCE (QA)
3.1 Test Equipment
All test equipment and instrumentation used in the performance ofthis test program was calibrated in accordance with applicablestandards and QA procedures and conforms to applicable portionsof ANSI N45.2 and 10 CFR 50 Appendix B. Standards used inperforming all calibrations are traceable to the National Institute ofStandards and Technology (NIST), natural physical constants, orcommercially accepted practices except the measurement ofemissivity using the infrared thermometer. (Reference Attachment I,page 1-1.)
3.2 Personnel and Procedures
All personnel, procedures, and instructions used in the performanceof this test program shall comply with the applicable requirementsof the CLS QA Program.
4.0 RECEIPT INSPECTION
4.1 Inspection
The materials (conduit, cable, 3M Fire Barrier material, etc.) werevisually inspected prior to assembly of the test items and found tobe free of physical defects. Measurements of the physicaldimensions of the 3M material section were made. See AttachmentB, pages B-7, B-13 and B-15 for measurements.
4.2 Tagqing
Three test specimens were tagged 94-0357-1 through 94-0357-3.
94-0357-1 1-inch conduit(1-10 ft and 2-5 ft sections)94-0357-2 1-4/C #10 AWG (Small Air Drop)94-0357-3 8-3/C #6 AWG (Large Air Drop)
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5.0 TEST PROCEDURE
5.1 General
The tests were performed using cable specimens listed above withthe individual conductors connected in series. The connectionswere made using crimped lugs and bolts. The same cable set wasused for the small air drop and one-inch conduit tests. The cablelength was approximately five feet longer than the 20-foot conduitsection, and the bolted connections were made outside the conduit.The connections for the large air drop were staggered to ensure noshort circuit paths occurred.
5.2 Setup
5.2.1 Three test configurations were initially assembled per Section 1.0.
5.2.2 After each of the three configurations were baseline tested, the3 M fire barrier material was installed on each and the testrepeated.
5.2.3 A chamber was fabricated to provide a temperature controlledenvironment for the test. The chamber was constructed using two-inch by four-inch studs with two layers of insulating foam boards.The room dimensions were 28 feet long by 8 feet high by 8 feetwide. The supports for the test using the conduit were two 36 inchwide by 40 inch high by 24 inch deep frames. The top of eachframe was covered with 5/8-inch plywood and 2-inch by 4-inchboards were used to support the test specimen and minimize thesurface contact with the support structure. The test specimen was43 inches above the chamber floor, 44 inches from the side walls,50 inches from the ceiling and 48 inches from the end walls.
The air drop configurations were suspended from the top of thechamber using nylon lacing cord, several places along the length ofthe specimen. The specimen was approximately centered in thechamber. (Reference Attachment F, page F-4 photograph 7)
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During tests, the temperature in the room was maintained at 40'C+/- 20C using eight resistive heaters installed along the floor of theroom near the chamber walls. An autotransformer was used tocontrol the voltage to the heaters which controlled the roomtemperature. No forced circulation of air was used during the test.The room temperature was measured using three thermocouples.The thermocouples were placed at the midpoint and five feet fromeach end of the specimen and in the same horizontal plane as thecenter line of the specimen.
5.3 Cable Specimen Setup
5.3.1 Cable specimens were instrumented with thermocouples in threelocations arranged so that one location was at the midpoint of thetest specimen. The other locations were three feet on either side ofthe midpoint. Thermocouples were installed using the followingtechnique: (Reference Attachment F, page F-1, photograph 1)
1. Cut a flap in the jacket to expose the insulated conductors.2. Cut a flap in the insulation to expose the wire strands.3. Embed the thermocouple between the strands.4. Reclose the insulation flap and seal with a single layer of glass
tape.5. Reclose the jacket flap and seal with a single layer of glass
tape.
The 8-3/C #6 AWG cables were banded together with stainlesssteel bands.
5.4 Electrical Connection for the Test
5.4.1 The conductors were connected in series. The cable wasenergized, and the conductor temperatures were monitored.
5.5 3M Fire Barrier Installation
The 3M fire barrier material was installed by WBN personnel. Themethods used were supplied by WBN and a copy of the informationwas supplied to CLS. The installation procedure is in AttachmentH. The measurement of each section of 3M wrap was made byCLS personnel. The measurements are contained in the log book.See Attachment B, pages B-7, B-13, and B-15.
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5.6 Surface temoerature
Measurement of the temperature of the external surface (bare andwrapped) conduit were taken to provide additional informationpertaining to the thermal characteristics of the test specimen. Thethermocouples were mounted on the top surface in the approximatevicinity of the thermocouples located internally at location #1 andlocation #3. The surface temperature are not included in the printedtest record but are included in the summary in Attachment C.
5.7 Emissivity Measurement
Measurements of the emissivity of the external surfaces of theconduit, cable and fire wrap were taken to obtain additionalinformation pertaining to the thermal characteristics of the testspecimens. The following procedure was used to determine theemissivity value:
1. The surface temperature of the test specimen was measuredusing a certified thermocouple.
2. A Mikron Infrared Thermometer, Model 22 was used tomeasure the temperature of the specimen. The emissivitycontrol was adjusted so the Mikron indicated the sametemperature indicated by the thermocouples.
3. The emissivity was recorded in the log book.
5.8 Phase Angle
The results of the measurements are for information only and arerecorded in the log book and included in Attachment C.
6.0 FINAL INSPECTION
All of the specimens were inspected after the conclusion of thetests. All specimens were intact at the end of the 3 hour testperiod.
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7.0 ATTACHMENTS
7.1 Attachment A - Test Plan
7.2 Attachment B - Log Book
7.3 Attachment C - Summary of Normalized Currents, Phase Angles,Surface Temperatures, Emissivity, and Derating Factors
7.4 Attachment D - Summary of Instrumentation
7.5 Attachment E - Raw Data from 3M Fire Barrier Tests
7.6 Attachment F - Photographs
7.7 Attachment G - Anomalies
7.8 Attachment H - Installation Instructions
7.9 Attachment I - Instrument Log
-9-fr940357
A-1
El13 931216 251
Central Laboratories Services
TEST PLAN
TESTING TO DETERMINE AMPACITY DERATING FACTORS FOR3M FIRE BARRIER WRAPPED CONDUITS AND AIR DROPS
WATTS BAR NUCLEAR PLANT
SHOP ORDER NO. 94-0357
Revision 1
December 2, 1993
F. A. DevineyProject Engineer
C. L. FutledgeProjec Engineer
Engineering Seoice'
r)
SW. E. Joly \bQuality Assurance
Customer Approval/
A-2
TEST PLAN
REVISION LOGShop Order No. 94-0357
Revision PagesDate Affected Description of Change Prepared by Approved
Rev. 011/15/93 All Initial Issue C.L.RutledgeRev. I12/2/93 2 Section 5.1.1 Revised C.Aledge X
description of test
specimens
-__ _ _Section 5.1.3 Revised --
description of test
specimens
3 Section 5.3.3 Revised ._-
description of surface
-__ _ temperature measurement
A-1 Revised drawing
A-2 Revised drawing
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A-3
TABLE OF CONTENTS
1.0
2.0
3.0
4.0
5.0
6.0
7.0
Scope
References
Quality Assurance
Receipt Inspection
Test Procedure
Report
Attachments
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A-4
1.0 SCOPE
The scope of this test is to perform ampacity derating testing for 1" conduit and small andlarge air drops covered with 3M fire barrier material. The testing will be conducted in atemperature stable enclosure and the enclosure temperature, conductor temperature andcurrent will be measured and recorded. The testing will be performed in accordance withIEEE P848 Draft 12 and lessons learned during previous TVA ampacity testing (CLSD,"Final Report, Testing to Determine Ampacity Derating Factors for Fire Protected Cablesfor Watts Bar Nuclear Plant", Job 93-0501, Revision 0 (El-3 930706 252).
2.0 REFERENCES
2.1 CLS-QAP-1.1 "Organization"
2.2 CLS-QAP-4.1 "M & TE Calibration Program"
2.3 CLS-QAP-4.7 "Engineering Services Program'
2.4 ANSI N45.2 -1971 "Test Control"
2.5 10 CFR 50 Appendix B "Quality Assurance Criteria for Nuclear Power Plants"
3.0 QUALITY ASSURANCE
3.1 Test Equipment
All test equipment and instrumentation to be used in the performance of this test programshall be calibrated in accordance with applicable standards and QA procedures and willconform to applicable portions of ANSI N45.2 and 1 0 CFR 50 Appendix B. Standardsused in performing all calibrations are traceable to the National Institute of Standards andTechnology (NIST), natural physical constants, or commercially accepted practices.
3.2 Personnel and Procedures
All personnel, procedures, and instructions used in the performance of this test programshall comply with the applicable requirements of the Central Laboratories Services (CLS)Quality Assurance Program.
4.0 RECEIPT INSPECTION
4.1 Tagging
Each of the items tested will have a tag attached for identification. The tag shall bear theunique number with the following format, XX-YYYY-ZZ where XX-YYYY is the job numberand ZZ denotes the individual test sample. All data associated with the specimen will beidentified by this number.
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4.2 Inspection
Each item will be inspected to ensure it is free from any physical defects that wouldprevent testing from being performed.
5.0 TEST PROCEDURE
5.1 Preparation of Test Specimens
5.1.1 Assemble the following conductor specimens
1) 8-3/C #6 AWG cables greater than 20 feet long with thermocouples embedded atthe midpoint and 3 feet on either side of the midpoint.
2) 1-4/C #10 AWG cable greater than 20 feet long with thermocouples embedded atthe midpoint and 3 feet on either side of the midpoint.
EV 1Thermocouples will be installed in three locations as shown in Attachment A, page A-2. Aflap will be cut in the overall jacket and individual conductor insulation for the #6 AWGand #10 AWG. The thermojunction for the thermocouple (not larger than 22 AWG, TypeT) will be inserted into the strands of the conductors. All flaps will be resealed with asingle layer of spiral wrap of electrical tape.
5.1.2 Assemble one 1" conduit specimen 20 feet long. Cut 1 10' section of conduit in half andcouple 5 foot sections on each end of another 10 foot conduit.)
5.1.3 The following configurations will be tested using the conductor and conduit specimensassembled in Sections 5.1.1 and 5.1.2.
Air Drop Tests1 ) 8-3/C #6 AWG in air2) 1-4/C #10 AWG in air3) 8-3/C #6 AWG wrapped with 3M fire barrier R E V 14) 1-4/C #10 AWG wrapped with 3M fire barrierConduit Tests5) 1-4/C #10 AWG in unwrapped 1" conduit6) 1-4/C #10 AWG in 1" conduit wrapped with 3M fire barrier
5.2 Preparation of the Test Facility
5.2.1 An enclosure shall be constructed so that the temperature around the specimen shall becontrolled at the test temperature of 40 0C + 2 0C. Some induced air movement withinthe enclosure may be necessary to achieve uniform steady-state temperature, but care willbe taken to avoid direct air currents against the test specimens. Method of ambienttemperature control within the test enclosure is important, and care will be taken to avoidany additional heat loading on the cables by radiation from heat sources.
5.2.2 The temperature inside the enclosure shall be measured at no less than three places onefoot from the specimen and in the horizontal plane of the test specimen. The temperatureof the enclosure will be taken as the average of the steady state measurements.
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A-6
5.3 Test Procedure
5.3.1 Each configuration shall be placed in the enclosure one at a time.
5.3.2 Conductors for each configuration will be connected in series. The circuit shall beenergized with 60 Hz, single phase alternating current sufficient to reach a steady-statetemperature of 90 0C at the hottest single point monitored at location two. (SeeAttachment A, page A- 2.) The current values measured shall be reported to the nearest0.1 ampere, and will be accurate to + 1 % of reading.
5.3.3 The temperature measurements will be recorded on a data logger and at intervals nogreater than 1 minute. The current in each test circuit shall be adjusted to achieve a hotspot conductor temperature of 90 OC + VC at location #2. The average temperatures atlocations #1 and #3 shall be within + 40C of the average temperature readings at location#2. Similar thermocouples shall be used to measure the top surface of the conduit orbundle without the 3M wrap and the surface temperature of the 3M wrap for the tests ofthe wrapped specimens. Two thermocouples placed in direct contact with the surface willbe used. The thermocouples will be placed at approximately 3 feet on either side of I E Vlocation 2. The surface measurement will be recorded a minimum of four times per hourduring the three-hour run. Both the conduit temperature and the wrap surface temperaturewill be measured and recorded as described above during the wrapped conduit test.
An Infrared Temperature (IR) device will be used to determine the surface emissivity. Thefollowing method will be used. The emissivity adjustment for the IR sensor will be used tomatch the infrared temperature device indication to the surface thermocouple indication.The emissivity will be recorded in the log book. This measurement is for information onlyand is not traceable to NIST.
5.3.4 The system will be considered to be in steady state condition when a three-hour periodhas elapsed since any perturbation of the system occurred (current adjustment, boxtemperature change, additional insulation placed on ends, etc.) and the rate of change ofthe average of all monitored conductor temperatures in that circuitry does not exceed+ 0.2 OC/hour. Readjustment of the current flow to a circuit in order to maintain a givenamperage value is not to be considered a perturbation.
5.3.5 In order to statistically assure thermal equilibrium, the conductor temperature will beaveraged at each sampling period and a linear regression analysis performed on the dataobtained from that and all other averages taken during the preceding 60-minute period.The slope of the line will be in OC/hour. As soon as the absolute value of the slope ofthese data becomes less than 0.2, equilibrium has been reached. Reference Attachment Bfor a detailed procedure for performing this analysis. This will be performed usingcomputerized data retrieval and analysis. (See Attachment A, page A-1 for test setup.)
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A-7
6.0 REPORT
6.1 Final Renort
The final report shall describe the test requirements, report the results of the tests, andreference procedures and test instructions required to perform this test plan. Thefollowing information specifically shall be included.
1. Description of the test configuration.
2. Data of the test.
3. Location of the test.
4. Description of the test equipment and test articles.
5. Calibration documentation of all thermocouples.
6. Qualification and certification for test personnel.
7. Test procedures used.
8. Ampacity values determined and accompanying equilibrium temperatures.
9. Description of:
a. Test article construction
b. Installation and inspection procedure
c. Identification and installation of fire barrier material
d. Thermocouple locations
e. Cables, size, type, and location
10. Computer printout and graphic results of the ampacity test.
11. All raw data.
1 2. 35 mm photographic coverage of the test project.
1 3. Chronological log (Event Log) of all activities from receipt of materials through finaltest report.
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A-8
6.2 Anomalies
All abnormal or unusual occurrences related to the performance of the test instrumentation,test fixtures, or test specimens shall be reported as anomalies. This shall also includedeficiencies in test methods, procedures, instructions and any deviation from the test plan.
A notice of anomaly report shall be initiated and forwarded to the customer once ananomaly has been identified. All anomalies shall be investigated, their impact on the testshall be established, and corrective action acceptable to the customer accomplished priorto continuation of any testing. Final customer acceptance shall be documented by thecustomer's approval of the notice of anomaly report.
7.0 ATTACHMENTS
7.1 Attachment A - Test Setup
7.2 Attachment B - Linear Regression Fit Method
7.3 Attachment C - Draft 12 of IEEE P848
g:\group\admin\t940357.clr
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A-10
TEST SET-UP FOR ONE
CONDUIT/AIR DROP AND CABLE ARRANGEMENT
(TYPICAL OF SIX)
CURRENTSOURCE
INPUTS 1, 2, AND 3 WILL BE AVERAGED AND USED TO CALCULATE LINEAR REGRESSION.EACH ARRANGEMENT WILL HAVE THERMOCOUPLES INSTALLED IN THE LOCATIONS SHOWN ABOVE.THERMOCOUPLES WILL BE INSTALLED IN EACH CONDUCTOR OF THE 1-4/C #10 AWG CABLE,FOR A TOTAL OF 12 TEMPERATURES. THERMOCOUPLES WILL BE INSTALLED IN THE BLACKCONDUCTOR OF EACH OF THE 3/C #6 AWG CABLES, FOR A TOTAL OF 24 TEMPERATURES.THE SLOPE OF THE UNE MUST BE LESS THAN THE ABSOLUTE VALUE OF 0.2. INPUTS 4, 5,AND 6 WILL BE AVERAGED FOR ROOM TEMPERATURE 40 DEG C +/- 2 DEG C. INPUT 7 ISTHE CURRENT MEASURED IN THE CIRCUIT BY MEANS OF A CURRENT TRANSFORMER ANDCURRENT TRANSDUCER. INPUTS 8 & 9 ARE THE SURFACE TEMPERATURES OF THE TESTCONFIGURATION. THE SURFACE TEMPERATURE FOR THE AIR DROP TESTS WILL BETHE OUTSIDE OF THE CABLE OR OUTSIDE OF THE 3M WRAP. THE SURFACE TEMPERATUREFOR THE CONDUIT WILL BE THE OUTSIDE OF THE CONDUIT OR THE OUTSIDE OF THE 3MWRAP.THE POTENTIAL REQUIRED TO POWER THE TEST SPECIMENS SHALL BE MEASUREDAND RECORDED.
A- 1 C:\FL\CINDY\
REV 1
9403574.DWG
A-li
THERMOCOUPLE LOCATIONS
LOCATION 2
LOCATION 1 L Li
8-3/C #6 AWG
1-4/C # 10 AWG
THERMOCOUPLES WILL BE INSTALLED IN EACH CONDUCTOR OF THE 1-4/C #10 AWG CABLE,FOR A TOTAL OF 12 TEMPERATURES. THERMOCOUPLES WILL BE INSTALLED IN THE BLACKCONDUCTOR OF EACH OF THE 3/C #e AWG CABLES, FOR A TOTAL OF 24 TEMPERATURES.THE 8-3/C #6 AWG CABLE WILL BE STRAPPED TOGETHER USING STAINLESS STEEL BANDS.
ENCLOSURE WALLS A MINIMUM OF 18 INCHES FROM THE SUPPORTS. SUPPORTS LOCATED5 FEET FROM EACH END. (EXCEPT FOR THE BARE CABLE)
A-2
REV 1
C:\FL\CINDY\9403571 .DWG
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A- 13
As an example of the least-squares technique, consider theconduit in Attachment A, page A-1. At each sampling time,an average temperature of all thermocouples will becalculated. This value will then be added to the top of anarray large enough to hold 60 minutes worth of theseaverages, and the oldest value discarded. A linear regressionfit is then performed on the array and presented on thevideo screen to the operator. When the next data samplingis completed, the entire process is repeated, thus yielding alinear regression fit of the data from the previous 60 minutes.As each new data point is added to the array, all previous onesare shifted down one time increment until each is finallydiscarded due to the fixed size of the array.
Y =mX + b X = X/nY =Z Y/n
ZXZ YZXY - nm X2
x - (Xn
b =Y-mXWHERE:
X=AVERAGE CONDUCTOR TEMPERATURE (DEG C)
Y=TIME INCREMENT (MIN)
M=SLOPE OF LINE(DEG C/MIN)
B=Y-AXIS INTERCEPT (DEG C) C:XFL\CINDY\9403576.DWG
B-1
A-15
2
Foreword
(Thip Foreword Is not a part of IEEE Std. P 848/01 Z. IEEE Standard - Prooodura for tho Daterminntion of the Atrpnolty Darotingof FIre Protooted Cablev)
iany cable installations in nuclear and fossil fuel generating stations requirethe installation of fire stop, fire protective materials, coating, andelectrical separation wrap materials over the cables or the raceway for fireprotection or electrical separation purposes. lOCFR50 Appendix R for nuclearplants may require some electrical circuits enclosed in a fire protectivematerial. IEEE 634-1976 specifies requirements for cable penetration fire stopsat fire rated walls and floors. Compliance with IEEE 384-1992 may requireinstallation of a wrap material over free air-drop cables or solid covers on
cable trays.
Building codes for commercial and industrial facilities. in some states requirepower cables, used in-emergency power syatems, to remain functional during a fireexposure. This may also necessitate the use of the fire protective material.
As discussed in IEEE 422 and IEEE 690, utility generating stations use cable
ampacities provided in ICEA P-46-426 for conduits, spaced cable trayinstallations and duct bank installations. ICEA P-54-440 is used for cableinstallation in random filled open-top trays. Commercial, industrial and non-utility owned generating stations utilize cable ampacities published in NFPA-70(National Electric Code). The National Electric Code permits the use of ICEA P-46-426 and IGEA P-54-440 under the direction of engineers
Fire-protection related products may reduce the heat transfer characteristicsassociated with the ampacities provided in ICEA F-46-426 and ICEA P-54-440. Infuture revisions, these ampacity standards may incorporate these new installationconditions on cable ampacity, Not all products, however, may be covered bychanges in the ampacity standards due to their limited use to the generatingstation market. Hence, ampacity testing to determine ampacity derating of fireprotected cable systems is necessary.
Several analytical cable atnpacity methods are listed in the bibliography toaddress fire stops, tray enclosure materials, and cable wrap material. The usermay consider the applications of these analytical methods to avoid testing ofminor differences in the installation of a given product.
Copyri±ht 0 1993 19YM. Al. righbe reservedThis is an urnhpprov~d IEEE Standard Draoft, aubjoot to ohango
C-1r64OPp;, ld February 24. 1993
A- 16
P 848/D12 February 24, 1993
IEEE STANDARD
PROCEDURE FOR THE DETERBtNATXON OF THE
AMPACITY DERATING -O FIRE PROTECTED CABLES
Sponsor
Insulated Conductors Committee of the
IEEs Powor Bngineering Society
Prepared by Task Force 12-45 ofTest and Measurements Subcommittee No. 12 of
Insulated Conductors Committee
Copyright 1993 by the Institute of Electrical
Engineers, Inc.345 East 47th Street
Now York, NY 10017, USAAll rights reserved,
and Electronics
This is an unapproved draft of the proposed IEEE Standard, subject to change.Permission is hereby granted for IEEE Standards Cuiituittee partluiipants toreproduce this document for purposes of IUZE standardization activities.Permission is also granted for member bodies and technical committees of ISO andIEC to reproduce this documexnt for purposes of developing a national position.Other entities seeking permission Lo reproduce this document for standardizationor other activities, or to reproduce portions of this document for these or otheruses, must contact the IEEE Standards Department for the appropriate license.Use of information cuitained in this unapproved draft is at your own risk,
IEEE Standards DepartmentCopyright and Permissions445 Hocs Lane, P.O. Bos 1331Piscataway, NJ 08855-1331, USA
C-2
A- 17
3
This standard was prepared by the Task Group on Procedure for the Determinationof the Ampacity Derating of Fire Protected Cableu, Subcormuittee on Tests and
14easurements, Xnsulated Conductors Committee. The membership of the working
group during the preparation of this draft was:
A.K. Gwal, ChairJ.L.White, Vice Chair
TJ, Al-HussainiP.BhatiaK.BrownE.A.CapoutchE.J.CoffeyB.J.D'AquannoJ.Dalyr.A.GiaccagliaA.liranandani
A.E.KollarR.LichtJ,Z,MerandoK.A.PettyK.W.PrierD.N.PriestP.D.SkellyH.SpurlockW.TorokF.W.Van NestJ,G, Waligorski
CopyriFht Q 199 B. All righlI~ reservedThis it an unapproved IEEE Standards Draft, xubjooL to olhise
Fa)-ruary 24, 1993C-3
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4
TABLE OF CONTENTS
1 Overview .
1.1 Purpose.1.2 Scope. . .
2 References . . .
3 Definitions . . .
4 Test Description
4.1 General . . . . . . . .4.1.1 Applicability . .4.1,2 Method of Testing
4.2 Test Specimens - Protected Cable4.2.1 Cable Selection . . . ..4.2.2 Cable Fill .4.2.3 Conduit . . . . . . . . .4.2.4 Tray . . . . . . . . . .4.2.5 Free-Air Prop . . . . . .4.2.6 Fire Protective Material
!SYBstems
. I .
. . . .
. . . .
. . . .
. . . .
. I . .
4.3 Test Specimens - Cable Penetration Fire4,3.1 Cnble Selection . . . . . . . . .
4.3.2 Cable Fill . . . . . . . . . . .4.3.3 Conduit . . . . . . . . . . . . .4.3.4 Tray . . . . . . . . . . . . . .4.3.5 Floor/Wall Assembly........4.3.6 Fire Stop Design
4.4 Test Facility . . . . . . . . . .4.4,1 Teat Enclosure4.4.2 Test Specimen Installation
4.4.2.1 Tray . . . . .4.4.2.2 Conduit . . . .4.4.2.3 Free-Air Drop .4.4.2.44.4.2.5
Cable PenetratioOrientation . .
StopI .
. . .
. . .
. . .
. . .
. . .
. . . . . . .
. . . . . . .
. . . . . . .
. . . . . . .
. . . . . . .
'n Fire, Stops' ,. . . . . . . .
4.4.2.6 Inutallation of Fire Protective Systems4.4.3 Thermocouple Seleoction and Placement ... . . . . .
4,5 Te.st Procedure . . . . . . . . . . . . . . . . . . . . . . .
4.5.1 Baseline Evaluation . . . . . .. . . . . . . . . . . .
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4.5.2 Current Source . . .4,5,3 Temperature Measurement4.5.4 Enclosure Temperature
5 Evaluation of Test Results .
5.1 Normalizing Test Results .
5.2 Ampacity Derating Factor , ,
6 Documentation of Testing
7 Bibliography .
a I . . I . . . . .
. . . . . . . . .
a............... .... a a a a a I a .
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TABLE OF CONTENTS (cont)
section
FIGURES
FIG 4-1FiG 4-2
FIG 4-3FIG 4-4FIG 4-5
18
19202122
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ThiB in an unopprovvd ZUEB Stmdardb Draft, subject, to change
C-6
Tray Configuration - Protective Cable System . .......Conduit and Free-Air Drop Configurations - Protective CableSyste mn . . . . . . . . . . . . . . . . . . . . . .Configuration- Cable Penetration Fire Stop . . . . . . . . .Enclosure and Support Requirements . . . . . . . . . . . . .Thermocouple Attachment to Conductor . . . . . . . . . . . .
FB46DXXD.std robbery as., IM9
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. Overview
1.1 1urpose. The purpose of this standard is to provide a testprocedure for use in establishing the ampacity or ampacity doratingfactor for cables installed in fire protected conduits, trays, orfree air-drops, cable penetration fire stops, or electricalseparation wrap systems.
1,2 Scope. This standard provides a detailed test procedure fordetermining the ampaoity or derating factor in the following cableinstallation configurations
(1) Block-out or sleeve type cable penetration fire stops,
(2) Conduits covered with a protective material.
(3) Tray covered with a protective material.
(4) Tray directly covered or ouated with a fire-rcstardant material,
(5) Free-air drops enclosed.with a protective material,
The standard is applicable to cables installed and sized to ICEA P-46-426for conduits and free air drops, and ICEA P-54-440 for cable tray, ICEA P-46-426 does provide ampacities for cables in a tray with a fixed spacingand may be used for cable penetration Lire stop configurations only.
This standard does not endorse the use of or provide application guidancefor the installation of cable penetration fire stops and fire protectivematerials. Cable designs are available which can withstand and remainfunctional during direct exposure to a fire. The user should refer to IEEE634 for the qualification requirements of cable penetration fire stops.
Copyriat 9 1993 IEBB. All righbe reservedThin La an unapproved IBEE Sbandards Drzat., Dubjoat to ohango
Pabruary 24, 1993P04OPr;,oLd C-7
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2 References
ANSI-IEEE Std 100-1990, Standard Dictionary of Electrical and Electronics Terms4th Edition.
Cross-Linked Thermosetting Polyethylene-Insulated Wire and Cable for theTransmission and Distribution of Blectrical Energy. Washington, D.C. : NationalElectrical Manufacturers Association, 1990. ICEA S-66-524 (NEMA WC 7-1988).
Ethylene Propylene Rubbar-Insulated Wire and Cable forDistribution of Electrical Energy. Washington, D.C.:Manufacturers Association, 1989, ICEA S-68-516 (NEMA WC
the Transmission andNational Electrical
8-1988),
ICEA Standard for Power Cable Ampacities. Washington, D.C.: National ElectricalManufacturers Association, 1962. Reprinted by IEEE under S-135. ICEA 1-46-426.
ICEA Standard for Ampacities - Cables in Open-Top Cable Trays. Washington, D.C.:National Electrical Manufacturers Association, 1991; NEMA WC-51, ICEA P-54-440,
IEEE Std. 384-1992, IEEE Standard Criteria for Independence of Class 1E Equipmentand circuits.
IEEE Std. 422-1986, IEEE Guide for the Design and Installation of Cable Systemsin Power Generating Stations.
IEEE Std. 690-1984, IEEE Standard for the Design and Installation of CableSystems for Class IE Circuits in Nuclear Power Generating Stations.
IEEE Std. 634-1978, IEEE Standard Cable Penetration Fire Stop Qualification Test,
Rubber-Insulated Wire and Cable for the Transmission and Distribution ofElectrical Energy. Washington, D.C.; National Electrical ManufacturersAssociation, 1980, ICEA S-19-81 (NEMA WC 3-1980).
The NationalQuincy, MA.
Electric Code, National Fire Protection Association, NFPA 70-1990,
Copyrisht v 1993 IEBE. All xights roerveodThis is an unapproved IEEE Obmdwrds Draft, aubjoot. to ohango
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3 Definitions
3.,1 ampacity derating factor: A numeric value representing the fractionalreduction from a base ampacity cable rating. Ampacity derating factors areassociated with specific installation conditions not presently addressedin the base ampaoity.
3.2 ampacity correction factor: A numeric value equal to one minus theampacity derating factor.
3.3 cable penetration fire stop; Material, devices or an assembly of partsproviding ;cable penetrations through firb-rated walls, floors, floor-ceiling assemblies, and maintaining required fire rating.
3.4 cable tray: A raceway resembling a ladder and usually constructed ofmetal. Other styles of trays include solid-bottom, and channel typo.
3.5 fire protected cable systems: Gable Systemns to which a fire protectiveenclosure inaLerial has been applied either in direct contact with thecables or applied over the raceway to protect cables from fire.
3.6 fire retardant coatings; Material applied along Lhe lengLtl of Cables or inlocalized areas, as deemed necessary, to retard the flame propagationproperties of cables in trays,
3.7 raceway: Any channel that is designed and used expressly for supporting orenclosing wires, cable or bus bars. Raceways consist primarily of, but arenot restricted to, cable trays and conduit,
4 Test Description
4.1 General
4.1.1 Applicability This method shall apply Lu cablesmanufactured in accordance with either ICEA S-66-524, ICEA S-19-81, orICEA S-68-516 and rated either 600, 2 000, 5 000, 8 000, or 15 000 V. Thistest is limited to cables installed in the following configurations:
(1) Tray with a fire protected cable system where cables arb arrangedconsistent with ICEA P-54-440.
Copyright 0 1993 IEEE. All rights rwomrvedThis Au an unapproved IEEEB Standards Drft, bubbect to chancy
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(2) Conduit or free air drop with a fire or electrical separationprotected cable system.
(3) Block-out, conduit or sleeve type penetration type fire stop.
4.1.2 Method of Testing Cable ampacity or ampacity derating factorshall be established by testing in accordance with the configurationsshown in Figures 4-1, 4-2, and 4-3. Test results may also be used toconfirm analytical heat transfer models.
4.2 Test Specimens - Protected Cable Systems
4.2.1 Cable Selection The cables used in the ampacity tests shallhave copper conductor(s), 600 V rated cros0-linked polyethylene orethylene-propylene rubber insulation and a chlorosulfonated polyethylenejacket. Depending on the specific test (as ouutliued below) the cablesshall be rated 600 V and..6f either 3/C No.6 AWG, 3- 1/C 750 kcmilconstruction, If a user opts to test using conduits sizes other than 1 and4 inch (see section 4.2.3) then a 3/C, triplex or 3-1/C cable shall bechosen to achieve the maximum allowable fill. When 1/C cables are used forconduit or free air drops, they shall be tie wrapped at intervals not toexceed 2 feet.
4.2.2 Cable Fill The ampacity of e protected cable system isdependent on a number of factors, including: the actual cable depth in atray, the number of conductors in a conduit and free air-drop, and theconductor size of the cables, The usnpacity derating factor of thebarrier/wrap systems, however, is not dependent on the these conditions,In order to avoid introducing other types of derating factors, e.g.multiple conductors in a conduit or close conduit grouping factors, thefollowing cable fill conditions shall be used.
(1) Random filled tray: Three layers of 3/C No,6 AWO cables, 0,75 inchdiameter, 32 cables per layer, resulting in a depth of 2,25 inchesfor the 24 inch wide tray.
(2) Conduit: Single circuit of three conductors sized to match theconduit in accordance with NFFA-70 or the largest comnerciallyavailable size, not to exceed 750 kcmil, generally used in conduits.(See Section 4.2.1)
(3) Free-Air Drop: Fill requirements do not apply.
4.2.3 Conduit Conduit amnpacity tests shall utilize 1 and 4 inchrigid steel conduits. Tests conducted using these two sizes shall beconsidered representative of all sizes provided that the fire protectivesystem installation methods and configurations are consistent across theentire size range. Where the installation methods, configurations, or fitdiffer according to conduit size the user shall test sizes to bound the
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specific application. Conduits shill be a minimura of 12 ft long. The
conduit shall be isolated from its supporting structure by wooden blocks.
In addition to the conduit, the junction boxes and pull boxes may also be
enclosed with a protective material. Since the surface area of the boxes
is significantly greater than the conduit, heat transfer is improvedproportionally. Therefore, junction boxes and pull boxes do not need to
be included in the ampacity test,
4.2.4 Tray A commercially available 4 inch deep - 24 inch wide
ladder-back style steel cable tray, a minimum of 12 ft long shall be used,The tray shall be isolated from the support by wooden blocks,
4.2.5 Free-Air Drop Ampacity tests shall be conducted on free
air drop configurations consisting of 1-3/C No,6 AWG and 3-1/C 750 komil,respectively. Tests conducted using these two sizes shall be consideredrepresentative of all sizes provided that the . firp-protective system
installation methods and configurations are consistent across the entire
size range. Where the installation methods, configurations, or fit differ
according to size the user 'shall test sizes to bound the specific
application. Free air drops shall be a minimum of 12 ft long. The test
specimen shall be supported to prevent sagging and shall be isolated from
its supporting structure by wooden blocks.
4.2.6 Fire Protective Material The protective material shallbe representative of the inLstlled product at maximum thickness. If the
product is typically applied in a non-uniform manner, e.g. overlap joint
when product is butted, then these sections shlall be included in the test.
Some fire-protected cable systems utilize an end seal where the barrier or
wrap ends in order to prevent the intrusion of hot gases or fire into theend of the tray or conduit. If end seal is less than six inches, then the
seal may be excluded from the test, Otherwise, the end seal should be
treated and tested in a similar manner to cable fire stop, except the wallsection is excluded,
4.3 Test Specimens - Cable Penetration Fire Stop
4.3.1 Cable Selection The iripacity of the cable in a cable
penetration fire stop varies with cable conductor size, conductor
material, and manner of cable installation outside the fire stop. Tests
conducted using a 600 V 3/C No. 12 AWG, aluminum conductor with cross-
linked polyethylene insulation and an overall chlorosulfonatedpolyethylene jacket shall be considered represenuative of other voltage
ratings, conductor sizes and copper or aluminum conductors installed in
random filled tray, Tests on single conductor 2/0 AWG aluminum conductor600 V, with cross-linked polyethylene insulation and a chlorosulfonatedpolyethylene jacket shall be considered to be representative of cables
installed in trays with maintained spacing. Tests performed using copper
Copyritbt. @ 1993 IZr5. All righba reservedThis is an unapproved IEEE otindordu Draft, xubjeet. to eh&,e
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conductor cables may be used only to establish the derating factors for
applications using copper conductor.
In cable bus applications, where larger conductor sizes are generallyused, cable specimen shall be the smallest conductor in the anticipateduse range. Aluminum conductor material shall be used, unless design is
limited to copper conductors,
4,3,2 Cable Fill The tray shall be filled to a one inch depth.The corresponding current in ICEA P-54-440 shall be applied.
Ampacity tests on fire stops installed in trays with maintained spacing(par ICEA P-46-426) shall be conducted on a single layer of 2/0 cablesseparated by one diameter.
Plant specific design conditions may be tested. However, the results maynot be extrapolated to lower percentage filled cable trays.
Conduit fill shall be identical to that specified in Section 4.2.2.
4.3.3 Conduit The conduit specimen shall be identical to that
used in section 4,2.3., except that the length of the conduit shall betwenty feet. No fire protective material shall be applied to tile conduitother than the fir* stop.
4.3.4 Tray Tray specimen shall be identical to that used in section4.2.4, except the length of the tray shall be twenty feet plus the widthof the vall. No fire protective material shall be applied to the trayother than the fire stop.
4,3,5 Floor(Wall Assemblies The type of floor/wall construction
and thickness affect the ampacity deFating of the systein. Thicker
floors/walls shall be representative of thinnear floors/walls of the sameconstruction. Floors/walls constructed of lower thermal conductivematerials shall be representative of floors/walls of higher thermalconductive materials.
The floor/wall assembly must maintain a minimum of 24 inches from itsouter edge to the edge of the blockout.
For floor assemblies, the raceways may contain 90 degree bends located ata minimum of 24 inches from each surface of the floor assembly.
4,3.6 Fire Stop Design The fire stop configuration to be ampacitytested shall be representative of the maximum permitted installationtolerances, in contrast to fire tests which are typically conducted onfire stops at the minimum tolerance.
4.4 Test Facility
Copyright 0 199S IEEE. ALL rights rpsarvadThis is an unapproved IEEE SLaidards Draft, subject to change
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4.4.1 Test Enclosure The ampacity test shall be conducted in anenclosure as shown in figure 4-4, such that the temperature around thespecimen shall be controlled to 40'C +/- 20C. The enclosure shall ensurean even temperature and shall limit drafts on the test specimen. Thetemperature inside the enclosure shall be measured at no less than threeplaces one foot from the specimen, and in the horizontal plane of the testspecimen. The temperature of the enclosure shall be taken as the averageof the steady state measurements.
4.4,2 Test Specimen Installation
4.4.2.1 Tray The tray is to be uniformly loaded with a singletype of cable, The cables shall be installed in an orderly,symmetric manner, so as to limit the flow of air through the cablesand to ensure repeatability. Cable tie wraps shall not be usedwithin the tray.
The cables shall be connected as u tingle series electrical circuit.
When testing the protected cable systems, a section of insulatingblanket shall be placed at the ends of t1le tray to minimize axialheat flow, such that the average values for the thermocouples atlocations 1 and 3 (see Figure 4-1) are within +/- 40C of the averagevalue for location 2,
4,4.2.2 Conduit The cables shall be pulled into the conduitafter installation of the thermocouples. No pulling lubricant shallbe used. When three single conductor cables are utilized for theconduit tests, the cables shall be bundled with stainless steel tiewraps or glass cloth electrical tape to ensure thermocoupleplacement is maintained during insertion or removal.
The cables shall be connected as a single series electrical circuit,
A section of insulating blanket shall be placed at the ends of theconduit to minimize axial heat flow, such that the average valuesfor the thermocouples at locations 1 and 3 (see Figure 4-2) arewithin +/- 4eC of the average for location 2.
4.4.2.3 Free-Air Drop The cables shall, be connected as asingle series electrical circuit.. When three single conductorcables are utilized for these tests, the cables shall be bundledwith stainless steel tie wraps or glass cloth electrical tape toensure thermocouple placement is maintained.
A section of insulating blanket shall be placed at ends of the freeair-drop to minimize axial heat flow, ouch that the average valuesfor the thermocouples at locations 1 and 3 (see rigure 4-2) arewithin +/- 46C of the average for location 2.
Copyribht 0 1993 IEEE. All ri ghts rebervbdThis is an unapproved ZZEB 81andards DrAft, subjaot to change
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4.4,2,4 Cable Penetration Fire Stop The cables and. racewaypenetrating the fire stop floor/wall u1sual be installed in anidentical fashion as during fire testing. This may include specialspacing requirements. If the fire stop design permits installationof the cables on the tray rungs or directly on the blockout surface,the bounding condition is considered to be with the cables placed onthe tray rungs.
4.4.2.5 Orientation The fire protected raceway testspecimens shall be mounted horizontally in order to model worst caseorientation and to prevent a 11chimney-effect." In the case of firestop tests, open ends of enclosed raceways must be sealed toeliminate air movement.
4.4.2.6 Installation of Fire Protective Systems The tray andconduit is to be raised off its support after completion of thebaseline tests, The protective system shall then be applied inaccordance with the method established in the fire or electricalseparation testing. The entire atvuembly.shall be lowered back ontothe supports while ensuring the assembly is not cracked or otherwisedistorted. If the protective system can be removed withoutdisturbing the uables or thermocouple placement, then the baselinetests may be performed before or after testing the protective cablesystem.
If the product undergoes a curing operation, the test specimen's drystate shall be established by the manufacturer and achieved prior tothe test through natural or artificial drying.
If the product Ls reactive at tempisratures below 90*C, then theequilibrium time must be extended based oln specific analysis,
4.4.3 Thermocouple Selection and Placement Thermocouples shallbe a maximum of 24 AWG, Type T special grade - Copper Constantan with anaccuracy of +/- 0.50C or other thermocouple types which have beencalibrated to the same level of accuracy. Thermocouple wire shall havewaterproof insulation. Thermocouples shall be placed directly against theconductor.
To attach the thermoJunction to the cable, make an approximately 2 inchlong slit in the outer jacket of the cable, to expose the insulatedconductors. Make a one inch slit in the insulation as shown in Figure 4-5. Insert the thermocouple junutoion in direct contact with the conductorstrands. For three conductor cables, close the insulation slit and sealwith a single layer of glass-reinforced electrical tape. For single andthree conductor cables, reposition the outer jacket and seal with a singlelayer of glass-reinforced electrical tape.
The test is intended to identify the temperature of the hottest conductorwithin the center of the protected cable system and cable penetration firestop. A set of thermocouples shall be installed at each of the vertical
Copyri&ht 6 1993 IEEE. All. ri;ha zeberzvdThiB is an unapproved IUN BLeaidaxds Draft, subject to change
ro4sPxx, od C-14 Yebruary 24, 1993
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planes along the length of the cable as shown in Figures 4-1, 4-2, and 4-
3, Conduit and free-air drops shall have the thermocouples placed on all
three conductors. Within the tray assembly, thermocouple leads shall
remain in the layer in which they are installed and be routed out the end
of the tray in the interstices of the cable mass. For fire protected
raceways, the following number of thermocouples shall be placed in eachvertical plane:
(1) tray configuration - 5
(2) conduit and free-air drop - 3
For ampacity tests of tray penetration fire stops, 5 thermocouples shall
be placed on the conductors in the fire stop in accordance with Figure 4-
1, One additional thermocouple shall be placed at 2 foot intervals on one
conductor of the center cable in the middle layer on each side of the
firestop. (Figure 4-3)
For ampacity tests of conduit or free-air drop penetration fire stops, 3
thermocouples shall be placed on the conductors in the fire stop in
accordance with Figure 4-2. One additional thermocouple shall be placed
at 2 foot intervals on each side of the fire stop.
4.5 Test Procedure
4.5.1 Baseline Evaluation At least one baseline test for each
system, i.e. tray, conduit, free air drop, shall be conducted in order to
establish baseline ampacities. Baseline evaluation for a tray assembly
must be performed on the same physical specimen used for the derating
test. Baseline and derating evaluations for conduits and free-air dropsshall be performed using the same instrumented cable set.
4,5.2 Current Source The circuit shall be energized with a 60 Hz,
single phase source sufficient to cause the conductor to reach 900C at
location 2 in Figures 4-1, 4-2, and location 1 in Pigure 4-3. The current
shall be measured to an accuracy of +/- 0, 5%. The use of a constant-current amplifier is recommended since tle increasing temperature changes
the circuit load, i.e, conductor resistance. Alternatively, process
control devices can be used to generate and maintain the current source.
4.5.3 Temperature Measurement All temperatures shall be recorded at
intervals no greater than one minute, The current in each test circuit
shall be adjusted to achieve a hot spot conductor temperature of 900C 4/-
10C at location 2 for the protected cable systems and location X for cable
penetration fire stop. The average temperature of thermocouple locations
l and 3 for the protected cable systems shall be within +/- 40C of the
average temperature reading at location 2. No restrictions are placed on
the temperature readings at locations outside the cable penetration fire
stop.
Cupyrisht, 19s3 INA9 All rigo rQvbdthis La an unapproved IESS 8tandards Draft, subjeot to ohanno
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The cable circuit is considered to be have reached steady state condition
when:
(1) A minimum of three hours since the last adjustment of current
level or perturbation of the system occurred, and
(2) The rate of change of the average of thermocouple reading at
hottest spot (location 2 for Figures 4-1 and 4-2, and location
1 for Figure 4-3) does not exceed +/- 0.2CC per hour forconduit, tray, and free-air drop.
Perturbation of the system conditions includes current adjustment, change
in the internal temperature of the enclosure, and addition or removal of
insulation on the ends of the tray, conduit or free-air drop, Minor
adjustment of current ( < 0.5%) required to keep the.current constant is
not considered a perturbation of the system.
In order to statistically assure thermal equilibrium, the conductor
temperatures shall be averaged at each swipling period. A linear
regression analysis using the least-squares method shall be performed on
the data obtained over the preceditdi 60 minute period. The slope of the
line shall be expressed in units of OC per hour. When the absolute value
of the slope becomes less than 0,2, equilibrium has been reached.
The degrees of freedom obtained by averaging many thermocouple locations,allows the precision to exceed Lhe +/- C limit of any one thermocouple,
The equations for a linear regression using the loast squares fit methodare shown below;
Y m X +b (1)
Zag .X (2)
n - (3)
£ XYA Xr Ym"- IEX2 (x)
Copyright 0 199S IEE, All righbx renerved
This in an unapproved ILES Standardh Draft., subject to othnno
Februery 26, 1993C-16
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A-31
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b - Y -m Z
average conductor temperature Ctime increment (min)slope of line (C/min)Y-axis intercept, C
4.5.4 Enclosure Temperature The temperature within the testenclosure shall be controlled to 40 +/- 2 C. Some induced air movementwithin the enclosure is necessary to achieve uniform steady-statetemperatures. Care must be taken to avoid direct air currents against thetest specimens. The method of ambient temperature control within the testenclosure is important. Care must be taken to avoid any additional heatloading on the cables by radiation from a heat source,
Copyright 0 1993 ME1. All right* ;rtvodThin to au unapproved IEEE Obandardb braft, ubj3ct to ohamgo
C-17
Where:
(5)
YxIn
b)
isisisis
thethethethe
W - - J - -
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L-- , --
I t I t I1 2 3 4 6
ThermoooupleI LoDation rl
,-TO lD. Nlumbesr
_ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ Lotoa n AlaI
Iis
I11
t I t7 a
I10
I .1 1 112 13 14 18
CRO08S SECTIONAL VIEWS
- TO l.D. Numbom
dl |Themwoupla
TO T .e, Numbers
FIG 4-1Tray Configuration - Protective C&ble System
Cppyripht 0 1993 ME. All rlghts reservedThis Is an unapproved IEEE strI-dard Draft, subject to change
C-18
ULJ0
4V x 24' x 1Z STEEL LADDER-BAGK CABLE TRAY
Si~de- ~w
0,
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A-32
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A-33
1 2LONG .8TEEL ONDUIT OM thEE AIR DROP
THERtMOOUPLE THERMOCOUPLE THERMOOUPLE
LOCATION #1 LOCATION #2 LOCATION #3
4' RIGID MELCONDUIT
( H -THERMOCOUPLES (3)\ -1 3t# 760 KCMIL
COPPER CABLE, WOV
.1 RIGID STEEL CONDUIT
* 91 3/C #6 AWO COPPERCABLE, OOOV
THERMOCOUPLES (3)
FIG 4-2Conduit and Free-Air Drop Configurations
- Protective Cable System
CopyrIght ° 1993 IEEE. Att rights reservedThis is an unapproved IEEE tatrdarda Draft, subject to change
WUUD
C-l9 February 24, i993F045DKX, vtd
rL6 0 ~ ? - I .I , . . 1 .
A-34
20
FIRESTOP MATERIAL
To LOC #sb \
TOCe L b TC LOC #2b
-, BLOCK WALL
THERMOOUPLELOCATION X1
TC LOG #Zu TO LOC Na
24' 24l ,It -P -_ _ 4
N.TRAY OR
CONDUIT
A
UMITS OFBLOCKOUT OR
SLEEVES
PI.120'(Mln)
44-1(20I(Mln)
FIG 4-3Configuration- Cable Penotration Fire Stop
Copyright o 193 Ill. AU rights reservedThis is an trapproved IEEE Standards Draft, subject to change
C-20P548oxx.std February 24, 1993
e Lb CO '= IZ-Z 14;)K~Lt r . r
A-3521
132"(Min)
. - - P..
t . 1 44 -
- 1 anO- 18t
CONDUIT & TRAY SUPPORT POINTS
FIG 4-4Enclosure and Support Requirements
- Protective Systems
Copyrioht 0 1993 IEEE. All rights resorvodThis is an Unapprovad IEEE Standards braft, aubject to vhang.
C-21 February 2a, 1993
TmCW1.1 Aw n I ct. "-Ma
72)(Mln)
P848bDXX. atd
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TQQ 7 f- * 77 T C: rr7 ,:et
A-3622
TYPE T "SPFCI/THERMOCOUPLE
LV 24QGAGEW1RE
INSULATION
.IG 4-5
Thermocoupla Attachment to Conductor
Copyright 4 19W3 IEEE. ALI rights reservedThis is on unapproved IEEE Standards Draft, subject to change
February 2/., 1003?B4B0xX . td C-22
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A-3723
5 Evaluation of Test Results
5.1 Normaling Test Results
After equilibrium has been achieved, the final conductor temperature and theambient temperature may not match 90 C and 40 C respectively. The results of thebaseline and the fire protected cable system tests must be normalized usingequation 6 below. The conductor temperature shall be the hottest conductortemperature at location 2 for the protective cable system and location 1 forcable penetration fire stop. The final temperatures must be within the limitsestablished in Section 4,5,4 and 4.5.3.
(To,- T41) (a + TO) (6)-(Ta Ta) (Ca + TC')
whereI test current at equilibrium, amperesTc hottest conductor temperature at center at equilibrium, CTa measured enclosure ambient temperature, CI' normalized current, amperesTa' normalized conductor temperature - 90 CTa' normalized ambient temperature - /,0 Calpha 234.5 for copper or 228.1 for aluminum
5.2 Ampacity Derating Factor
Using the normalized current, as determined from section 5.1, an ampacityderating factor can be calculated using the results of the baseline test and theprotected cable system or cable fire stop. The ampacity derating factor (ADF) andampacity correction factor (ACF) shall be calculated using equations 7 and 8. Theuser may find it may convenient to express the ampacity results as ampacitycorrection factor (ACF) for calculation purposes. ACF is applied in a similarfashion as conduit grouping factors and ambient temperature correction factoras shown in ICEA P-46-426.
ADF o 0I!) 0 (7)
Copyright 0 1993 MRE. All righte reservadThJQ in an unappaoved IIE Standards Draft, subject to change
P040DXX..td C-23 February 24, 1993
A-3824
X.
AC'F (8)
Where
lo is the normalized current for the baseline condition, amperesIf is the normalized current for the passive fire protected cable
system or cable penetration fire stop system,ADF is the ampacity derating factor, XACF is the ampacity correction factor
Ampacity derating factors shall be expressed in conjunction with reference to itsbaseline ampacity standard. This is especially important for cable penetrationfire stops where the cable installation method outside the wall has a majorinfluence on the resulting derating factor. Cable Fire stop ampacity deratingfactor is also restricted in terms of -conductor size and material.
Examples illustrating how the ampacity derating factors must be expressed areshown below.
(1) ADI - 18 %, Floor Assembly Fire Stop Penetration, Product design- AAA, applied against ICtA P-&6-426 "conduit in air ampacities" for
12 AWG aluminum or copper conductors and larger.
(2) ADF - 7 %, Wall Assembly Fire Stop Penetration, Product design AAA,applied against ICEA P-46-426 "conduit in air ampacities" for 1000komil copper conductors or 1250 komil aluminum conductor and larger.
(3) ADF - 20 %, Fire Protective Material - Tray Application, Productdesign BBB, when applied against ICZA P-54-440,
(4) ADF - 18 %, Electrical Separation Wrap - Free Air Drop, Productdesign CCC, when applied against ICEA P-46-426 "in free air"ampacities,
6 Documentation of Testing
The test report and the resulting derating factor shall include the followingdocumentation;
(1) Deocription of the test configuration
(2) Date of the test
(3) Location of the test
(4) Description of the test equipment and test articles
Copyright 0 19ga IEEE, All fiesta roservedThis Is an unapproved IEEE Standarde DrAft, subjeet to change
P8481J> nod C-24 February 24 , 10963
A-39
25
(5) Calibration documentation of all thermocouples
(6) Qualification and certification for test personnel
(7) Test procedures used.
(8) Ampacity values determined and aecompanying equilibrationtemperatures.
(9) Provide quality control records for:
(a) Test article construction
(b) Qualification and certification for installation andinspection personnel
(c) Identification and Installation of fire barrier material
(d) Thermocouple locations
(e) cables, size, type, and location
(f) Actual tray and conduit cable fill, and calculated depth ofcable fill as defined in ICEA P-54-440
(10) Computer printout and graphic results of the ampacity test
(11) All raw data
(12) 35 mm photographic coverage of the test project
(13) Documentation that product does or does not react at temperaturesbelow 900C.
(14) Documentation that moisture equilibritu has been achieved.
.7 Bibliography
(BlI Stolpe, J., "Ampacitios for Cables in Randomly Filled Trays", TEE.Transactions on Power Aooaratua and Systems Vol PAS 90, pp 962-973, 1971
[Z2] Nemeth, CW., RackLiffe, G.B., Legro, J.R., "Ampacites for Cables in Trayswith Firestops" IEEE rasnagctions on Power Apparatus and Systems, Vol PAS100, No. 7 July 1981
[B3] Herter, VJ, , Barry, R,E,, Began, T.A., "Ampacity Test of a Silicone. FoamFirestop in a Cable Tray" THE Transactions on PowAX Apparatus andSystems, Vol PAS 100, No. 7 July 1981
B4I) Esteves, O.H., "Dorating Cables in Trays Traversing Fireatops or WrappedFireproofing" IERE Transactions on Pnwer AprpArArAIR ind SvstremnA. Vol PAS
102, pp. 1478-l/181, 1983
CopyriLht 0 1993 IEEE. All tights reservedThis is an unapproved IEE Standards Draft, subject to change
P8ne1)Oit4 r' c February 24, 1993t--z)
A-4026
. [E51 Petty, K.A. "Ampacity of Wrapped Cables" IEEE Transmotions on Power
Delive: Vol 3 No 1, January 1988
- [B6] Hiranandani, A.K. "Rating Power Cables in Wrapped Cable Trays"
¶rAwsgctions on Power Dlivry Vol 3 No 1, January 1988
[t7] Save, P., Engmann, C. "Flre Protection Wrapped Cable Tray Ampacity"TransactiOns on' PowAr G.nerAtJon Vol No , t9A
IEE
Copyrisht ° 1993 IEEE, Atl rights roe-arvdThis in an ubappzoved IEEE Standards Draft, subject to change
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ATTACHMENT C
SUMMARY OF NORMALIZED CURRENTS, PHASE ANGLES,SURFACE TEMPERATURES, EMISSIVITY, AND DERATING FACTORS
JOB NUMBER 94-0357SUMMARY OF TESTING PERFORMED FOR 3M FIRE BARRIER WRAP
DATE CURRENT PHASE POTENTIAL TEMPERATURE DERATINGDESCRIPTION TESTED FILENAME AMPS ANGLE VOLTS UNDER 3M SURFACE EMISSIVITY FACTOR
CONDUIT, BARE 12-05-93 4ClOGBC.001 31.7 0 4.273 N/A 61 0.46 N/A
CONDUIT, 3M 12-09-93 4C1OG3M.001 22.6 0 2.950 73 47 0.26 0.29
SMALL AIR DROP, BARE 12-05-93 4C1OGBAR.EO1 39.9 0 5.293 N/A 67 0.99 N/A
SMALL AIR DROP, 3M 12-22-93 4C1OG3M.001 23.3 0 3.040 84 47 0.56 0.42
LARGE AIR DROP, BARE 12-15-93 24C6GBA.RE1 42.6 9 12.30 N/A 62 0.99 N/A
LARGE AIR DROP, 3M 12-20-93 24C6G3M.001 21.6 9 6.236 84 48 0.54 0.49
C-
C:\FL\CINDY\SUMM357
D-1
CONFIGURATION FOR BARE CONDUIT TEST
LOCATION
1111
2222
3333
123
13
CONDUCTOR
RwBG
RwBG
RwBG
RoomRoomRoom
SurfaceSurface
CHANNEL
20212223
24253327
32293031
012
45
Current 90
D-2
CONFIGURATION FOR CONDUIT TEST WITH 3M FIRE BARRIER WRAP
LOCATION
1111
2222
3333
123
13
13
CONDUCTOR
RWBG
RWBG
RWBG
RoomRoomRoom
Conduit SurfaceConduit Surface
SurfaceSurface
CHANNEL
20212223
24253327
32293031
012
45
67
Current 90
D-3
CONFIGURATION FOR SMALL AIR DROP TEST
LOCATION
1111
2222
3333
123
13
CONDUCTOR
RwBG
RwBG
RwBG
RoomRoomRoom
SurfaceSurface
CHANNEL
20212223
24253327
32293031
012
45
Current 90
D-4
CONFIGURATION FOR SMALLWRAP
AIR DROP TEST WITH 3M FIRE BARRIER
LOCATION
1111
2222
3333
123
13
13
CONDUCTOR
RWBG
RWBG
RWBG
RoomRoomRoom
Cable SurfaceCable Surface
SurfaceSurface
CHANNEL
20212223
24253327
32593031
012
5758
69
Current 90
D-5
CONFIGURATION FOR LARGE AIR DROP TEST
LOCATION
11111111
22222222
33333333
123
13
CONDUCTOR
ABCDEFGH
ABCDEFGH
ABCDEFGH
RoomRoomRoom
SurfaceSurface
CHANNEL
526566395369
. 7072
4849505160616263
4041424344454647
012
69
Current 90
D-6
CONFIGURATION FOR LARGEBARRIER WRAP
AIR DROP TEST WITH 3M FIRE
LOCATION
11111111
22222222
33333333
123
13
13
CONDUCTOR
ABCDEFGH
ABCDEFGH
ABCDEFGH
RoomRoomRoom
Wire SurfaceWire Surface
SurfaceSurface
CHANNEL
5265663953697072
4849505160616263
4041343744454647
01*2
3536
79
Current 90
AMPACITY TEST. JOB NUMBER 94-0357.
E-1
SAMPLE NUMBER 94-0357-01 DATA FILE C:\940357\4CIOGBC,001
POSITION IT20 T21 T22 T23 T24
92.7 93,0`sa.s 39.7 09.132 0 .39.5 89.7 a8.0"2.7 93.0 89.3 89.7 88.132.8 33.1 833. S9.7 98.122.7 93.0 '30.0 39.7 88.1
92.7 33.0 30.2 89.7 38.092.8 93.0 8B.o 39.7 88.132 , 93.0 83. 0.7 98.1
'928 93.039.0 09.7 88.132.8 93.1 89.5 39j.7 '3 88.192.8 93.1 8g.5 89.7 88.192.7 93.0 38.7 89.7 38.192.7 93.0 88.3 89.7 88.19?2.7 93.0 39.6 89.7 88.192.3 33.0 89.2 89.7 88.1K2.793.083.0 39.7 93.192.8 93.0 89.0 89.7 38.192.7 3.0 89.7 89.7 88.19>2.7 933.0 89.4 89.7 88.192.7 93.0 89.6 39.7 88.1923 '33.0 29. 7 89.7 88.12 9 1?3.1 89.6 89.7 88.1
92.8 93.0 88.7 89.7 38.192. 3 3.0 89.1 39.8 88.1,-'20'K'2139 '2 39Q7 88.
9.7 93 . 0.1 8'3.7 88.192.3 33.1 9'0. 89.7 73.132.8 9.033.0 89788.12.3 93.0 38.3 29 8 38.1
92.9 93.u a.3 39.8 83.192.8 93. 9.1 89.7 88.i92.3 9'21 89.' 39. 88.192.8 ? 3.1 33.7 E7.7 88.192'.7 32.1 30.0 89.s7 33.0
'2.S ?30 as.7 89.7 88.192.7 933.1 893 39a.7 88.0'32.7 93.0 90.2 89.7 88.0?, 7 ' 8 89.8 89.7 88.092,7 K.0 9. 89.7 88.o92.7 933.089. a89.7 88.092. 793.0 90.0 8'3.7 88.0
'32.792.989.53.7 38.0'32.7 S3.0 89.7 89.7 3S.092.7 93.0 90.2 89.7 88.092.7 93.O 90.0 89.7 88.092.7 93.0 90.2 89.7 88.092.8 '3.1 9o.1 89.8 38.093.8 93.1 90.1 69.S 88.132.3 93.0 83.8 38.1'i2.3 93.1 83.3 8?.8 88.192.3 93.1 90.2 89.8 88.092.8 93.0 89.6 89.8 88.192.8 93.0 88.8 89.8 88.1'32.3 93.0 39.0 38.7 38.192.7 1 90.2 89.8 8B8.092.7 93.0 90.1 39.7 88.0
97 93.0 90.2 39.7 88.0'3.3 93.1 29.3 39a.7 88.092.7 93.0 89.1 8?.7 88.0'32.7 32.9 38.3 89.7 88.0
POSITION 2 POSITION 3 POSITION AVE AVG AMBIENT TEMPERATURE
T25 T33 T27 T32 T29 T30 T31 Ti T2 T3 Twave SLOPE Taal Tam2 Tam3 Taav
89.3 90.1893.9 90. 139.7 90.289.3 90.189.7 90.289.6 30.189.9 90.183.7 '30.189.8 Q0.189.9 90.1I89.983.8 90.1899 90.189.7 90.238.8 90.189.8 901.99.9 90.189.7 90.289.7 90.239. 7 '30.189.7 90.183.9 90.1as.3s 90.2
89.8 3.89.3 9.1i83.6 90.1
39.7 90.1839.9 90. 18.9 '3d.i8.3.7 so.2'29.9 90.1!83.e '30.2
83.3 sd
39. a sd0!89.9 90.10
89.8 '90.1
89.3 90.189.8 '90.0
89.6 90.199.6 90.089.67 90.1089.7 90.0
39.1 d90.0o9.6 90d.189.8 30.139.6 '30.099.7 90.189.8 90.289. 9 90.2
89.7 '30.189.1.7 '30.183.7 90.189.9 90.189.90.89.6 '30.83.6 90.189.5 90.13H.3 '139. 390.08,3.8 90.0
85.2 90.0 94.6 92.0 91.185.2 90.0 94.3 31.3 91.185.2 90.0 94.7 92.0 91.185.2 90.0 94.7 91.9 91.185.2 90.0 94.7 92.0 '31.185.2 90.0 94.7 92.0 91.185.2 0.0 94.6 92.091.1,85.2 30.0 94.7 '32.0 91.185.2 90.0 94.7 92.0 31.1
85.2 '90.0 '34.7 9.9 91.185.2 39.9 94.6 92.0 931.185.2 90.0 94.6 91 .9 91.195-. '30 94.7 '92.0 '31.1
85.2 90.0 '34.7 92.0 91.285.2 90.0 94.6 92.0 '31.185.2 90.0 94.7 92.0 91.235.1 90.0 94.7 32.0 '31.185.2 90.0 94.7 92.0 91.135.1 90.0 94.7 92.0 '31.185.2 90.0 94.7 32.0 91.1:35.2 30.1 '34.7 91.93 '31.185.2 '90.0 '94.,7 9.0 1.135.2 9O. 0 ' 34.7 92.1 '31.135.2 90.1 934.5 91.3 91.185.1 '30.0 '34.7 92.0 '31.185.2 90.03 94.7 91.9 91.135.2 '30.0 94.7 92.0 91.85 2 90.1 94.7 32.0 '3.235. '30.0 '34.7 92.1 9l.35.2 90.1 94.7 92.0 91235.2 '30. 34.7 31.'3 91.135.2 90I 94.7 9 1.135.2 90.1 '3.7 '31.3 91.185.2 '30.0 94.5 92.0 91.185.2 90.0 94.6 '31.3 931.185.1 89.9 34.7 31.3 '31.035.2 90.0 94.6 91.3 '31.185.1 90.O 34.7 92.0 931.185.1 83.9 '34.6 '32. 931.185.1' 90.0 ?4.6 91.9 91.135.1 8.33 9i4.6 92.0 31.085.1 9.0 94.6 92.0 91.185.1 90.0 '34.7 '31.9 921.I85.1 90.0 94.7 91.9 91.185.1 90.0 94.7 32.0 '31.185.2 90.0 34.7 92.0 91.285.2 90.1 94.7 91.9 91.185.2 90.1 94.7 92.0 91.135.2 '30.1 94.7 92.0 '31.285.2 90.1 94.7 92.0 91.285.2 90.1 '34.7 92.1 '31.285.2 90.1 94.7 92.1 91.285.2 90.1 94.7 91.9 91.185.1 30.1 94.7 92.0 391.135.1 90.0 94.7 92.0 91.185.1 90.0 94.7 92.0 91.185.1 '30.1 94.7 91.93 1.185.1 90.0 94.6 91.9 931.185.1 '30.0 94.6 92.0 '31.1
91.191.291.291.391.391.4
91.1
91.3
91.1
'31.1
ql1 .n4
91.3191.01
91.1
,'3 .34
91.2
931.14
'31,3
912 1
31 'a
31 .3
ul.
'31.
1It71.314391.491i.1
91.2
91.4'31.3
31.2
31.4
91.431.31.3
931.3'31.491.391.491.4
91.4
91.3
'31.2
91.4'31 .491.4
91.0
B8.23 91. 90.43sa.3 91.93 90.788.3 91.3 '0.4788.3 91.9 90.4238.3 91.9 90.5388.2 91.9 90.5288.3 91.9 90.4483.2 '1.3 30.4988.3 91.9 90.4633.3 31.9 '30.5298.3 91.9 90.5088.3 91.9 '30.4188.3 91.9 90.4338.3 91.9 90.5088.3 92. J 0.4888.3 91.9 30.4488.3 92.0 90.47B8.3 91.3 90.4588.3 291.9 90.488.3 91.9 '30.4888.3 91.9 90.4188.3 '31.3 '30.5388.3 91.9 90.s488. 3 92.0 o90.4888.3 91.9 90.4983.2 91.9 90.5288.391.9903e.5583,3 92.0 90.4788.3 92.0 90.4788.3 92.0 90.5088.3 921.0 0o.522 3 91.9 '30.5728.3 91.9 30.53a3.3 91.9 90.5388.. 1.13 e. 788.3 '31.9 90.4988.2 91.9 90.4983.3 '31.9 90.5088.2 91.9 90.50
88.2 ?1. 9 30.4788.2 '31. '30.4288.2 9. 90.5473.91.9 903.5188.3 91.9 90.5188.2 '3.9 90.5138.3 92. 0 sd0.5688.3 91.9 '30.57B8.3 9 2.0 90 .4788.3 '32.0 90.5288.3 92.0 90.47
88 .4 2 9 0.4788.2 92.0 90.5488.2 91.9 30.5188.2 91.9 90.5138.3 91. 90.5388.2 91.9 90.4282.2 931.9 '30.39
-0.00 40.2 '41.9 40. '40.1
0.00O 40. 19. 9 40.3 240.0.0O 40.i '.33 40." 40.10.02 40.2 3.s" 40.3 40.10.02 40. '3.3 4990 40.10.02 40. 3s93 240. 40.10.03 40. 3j 2 4u.2 40.10.03 40.2 39.9 40.2 40.10.03 40.2 33.8 40.2 40.10.03 40.1! 39.8 40.3 40.10.03 40.2 39.8 40.2 40.10.03 40.2 39.8 40.3 40.10.03 40.1 33.8 4O.2 40.00. 3 40.1 39.8 40.2 40.00.03 40.2 39.8 40.2 40.10.03 40.1 39.8 40.2 40.00.03 40.2 33.3 40.2 40.10.0 4 40. 3 9. 40.2 40.00. 04 40.2 39.9 40.2 40.10.04 4': .9 40.2 40.10.0540.2 33.2 40.2 40,1
O. 04 40.2 39... 4(. 40.10.04 40.2 33. 40.2 40.10..1 40. 2 8 .240 40.1
,.O5 40.1 33 .7 40. 00.06 40." 39.8 40. 40.1
0.06 40.1 '2 .7 46.: 40.0
0.06 40.1 '4. 41.1 40. 0,0.06 do.' . .8 40.3 2 4.10.07 40.2 9 i 4"I 4 40.1
0.07 40.1 39.7 40.2 40.00..7 40.1 39.7 40.2 40.00.07 40.1 39.8 40.2 40.00.047 0.1 39.8 40.2 40.0O0.07 40.1 39.9 40.1 40.00.07 40.1 .39 40.0 40.00.07 40.1 39.8 40.1 40.00).06 40.1 39.8 40.1 40.00.06 40.1 39.7 40.3 40.0(0.05 40.0 23.7 40.1 3'3.90.05 40.1 39.3 40.2 40.00.05 40.2 33.7 40.1 40.00.05 40.2 39.8 40.2 40.10.05 40.1 319.3 40.1 40.00.06 40.0 39.7 40.1 39.90.06 40.2 3?.3 40.2 40.1
.06 40. 1 39. 8 40.2 40.00.OS 40.0 39.8 40.1 40.00.07 40.1 39.8 40.1 40.00. 07 ,40.1 3I .8 40.2 40.00.06 40.1 39.8 40.2 40.00.06 40.2 29.9 40.2 40.10.06 40.2 39.9 40.3 40.10.05 40.2 39.8 40.2 4d.10.05 40,. 39.8 40.2 40.10.0S 20.2 3.3a 40.3 40.10.04 40.2 39.8 40.2 40.10.02 40.2 3.39 40.3 40.1
AMPSIt
31 .72
3, IJ I
31. 7431.77
.I73
'2I31 .70
31.76X
311.743175
.31.71
S..
3L1.73
31. 7
31. 79
I I482
7!I . i9
31 . 331. EJ
13!i3! .'3
0slo
'21 o9
2l. 35
31.725'2 '2o4
31 .o3.4'
3.55
31.75
31.7731.7931.3231.32
31.7531.8531.7731.7331.6731.63
31.70
3±. b831.o?
I' TIME
31.8031.7631.7531.7831 .6731.7031.7531.7431.7731.713!,oB31.7231.71
1 7131 .7 031. 7331.7231.7231.7731.6231.7331.74
*I . 4b
31.6831.71
1.77
31 . J
jiI 43
31 I.6
31.b331.o7
31.7431.79
31.82
31.7831.6431.70
31.8131i9
31.7531.7831.66
31. 6331.6431.72
31.7021.7131.73
14: 2614: H7
L U81s crl
15:0615:071 5: 0O8
15: 10
1:115: 01:08
15:.iJ
Iv10
15: 1!
.4-
-IC
15: 3a
15: !
15: 12I - I 3
1 5: 7
15: !2
I '. 475. 4 -IC.
1-' "4
: L
I5v.415:3815:vl15:402
15:35
15:4515:3615:47315:48, -. 4,15:5015:51
15: 52
15:53715:549
15:55
COMMENTS
Test ed By 2d,,' ,&>y Date .13 -r-5? Reviewed By D ?jate /2- g/-5 31 L n _ Z ~j::p,
12-05-1993
E-2
AMPACITY TEST. JOB NUMBER 94-0357. SAMPLE NUMBER 94-0357-01 DATA FILE C:\940357\4C1OGBC.001 12-05-1993
POSITION 1IPOSITION 2 POSITION 3 ~ PbSITION AVE AVG AMBIENT TEMPERATURE AMPS
T20 121 T22 T23 T24 T25 'T33 T27 T32 T29 T30 T31 11 12 13 Tvave SLOPE Taal Ta22 Tam3 Taav It It TINE
oil 79 3. 039.3 3 9. 733.0 39.8 90. 0K 51 90.0( 94. 7 91.9 9!.1 31 .3 23.2 "I1.9S 90. 48 0. 0240. 39.9 40.3 S0. 3.6E9 31I.73 7
32. 9.9 8-9.3 89. 8. 8. 9. 8.1 01 9.2 920 1. 1 91i.2 88 .2 91.9 IO44' 0 0.0 40.' 9 3 0 3 4.13.2 3.5 i :
'279 2. 8. 9.17 38.0 39.3 30.1.95.190. 9"i4.2 92. 3.91083'139.4 0010 3.240.3 4 0.10 3169 '3 1.70 15:'J99' 92.79. 909.1.99.7 88.0 89.' 90.1 85.1, 90.0 94.7- 92. 0 91. 1 91.4 88.2 91.9 ',30.54 -0.00 402 3,9. 40.2 40. 31C931I9 1J 0
92).7 303. 78. 989. 519. 479. 129. 829. 04 -10041 4'233. 3 40.2 340.1 31. 317 6092792983.7 89.7 88.0 89.8 '30.0 2 5.1 90.0 9 '4.6 92. 91.1 931. 03 88. 9'1.990.330 ') 4 99020.1 31.7 31.75 6032.732933.7 39.7 33.0 89.7 90.1 .85.1 '30.0 94.7 2. 91-.1 9-I 1.0 38.2 9~19 ' 30. 5 U, -0 40, 393 340." 4 0. 31.62 31.62 16o
'32.7 92.9 88.9 89.7 83.0 89.7 90.0 K85.1 940. 0 94.7 92 .091 .12 91.1 88. 2S2 9 090.4 "' 00 ~4 40 .23, 3 4o0 40. 1 31.67 217 1b:01
92 .792.9 938.3 89.7 33.0 839. 9'0.0 85.1 90.0 94.2b '31. 9 '1.0 91.0 33.2 931 9 930 In 002 5402 39.3 40. 240.1 31.73 21.7 16:02'9.6 92 3970HI39.728.039.5790.085192' ,;,0.094. 'O92. 091.1 9 1 .323. 34 139 0.4b -U0.0 40 ' 01 16
988.9 8 .7 .089.339.0935.1 90.0 9 4.6 91.9'31. 1 31.1 338.4 231 9330. 3 -0.o4 4 O.t 3,3 40 .2 40.1 31.52.I 1~ 6(0Q. 0'O. ,I88 3 I'u
926'239.3.6733. 933.0 390.9 94.5 'O'1.9 '? 31.1Oil '30.9 3 13.1.'139 % o 06O1040 "a 81 40 401 31.24 31.0S ''92629019780959. 50'009. 199. 138. 19 -40.0 140. 39. '34 013.8 32. t J 13 13
92. 30'0.1 39.7 38.0 83.5 '30.0 35.1 90.1 94.7 92.0 91.1 91.4 83.' '3' 9 9o 0. 0046' 4 40.1 3180'1 4
9279.8939.I I .8.70.8.10'9.9201.191 .2 I882 '31 .9 '30. 44 U0 4 ~0 39. ' 40. 3~40.1 31.1) ~±3 i.C ±1607
923 930 3.389.7 83.1 39.3 90.1 35.1 '30.0 '34.7 '3.0I 3 3 83199.3-.14. 3~4''4. 17 17 219239. 39.69.333.189.6 90.1 3 50.2090.I94. 7 92.091.1 931.~ 03.L 92.0 990.51 -0.11 40.I 1 33 9.8- 40.3 40. 1 31 .31 I 31.3 16S:14
9.'3.33989.73.13. 90.1 35.2 '30r.0 '34.7 92.90'1 31 9. 8113 392.0890. 47 -0.11 40.2 3', 40. 40.0 31.8 31.3 1:1
9233.H3.0 39. 3 83.1O 89'.3 90.1 85.2 '3.1 '34.8 92. '31. 9'1I )' 31.4 o8.3 92I.0 90.458 -0.09 40.2 9 'O 4o 0.1 31.82 31,.22 6:19.3I9.039 3.99833.139.5 90. 0185.2 '30. 19'4.8 92.1 913 II '314 '.8322.1 '30.52 -0.03O 40.2 '''34). '4.,1 351 .30 31 .31 1V-~
9.7 393.`0 39.3 89.3 88.1 .99.3790. 185.2 90.1 94.7 92.1 91.1 '31 . 88.3 923.1 990.44 -0.06 40.1 249340.040.1 31.29 31.0 1:2''391983 8338. '30. 90.1 95. 9019. 32.'31. '1.2883 '3. -3.0 05 40.2 39.83 40 .37 40.1 311.77 31 .7 7 1 61
9' 8 'K3 1 '.0 89.8 83.1 99.3 90,1 I 35.2 90. 94. 7 92. 0dl '31. 1.3 L8.3 '32.0 '0.S 0 4 33'384034. 1.13.1 1
3-9 . 39. 811 .88.1 39.7 90.2 85 .29 90 .194.7 92 .191.29 1 .3 O88.3 92 .090.5' -0.1 40. '39 .9 40.3 410. I1.31.8 31.78 16:!
923. 3'Th '30.13 393.8 83.1 394.8 '30.2 35.2 '30.1 '34.87 '32.0 91.12 91.5 3.9.39'2. 090.47i U 01 40. 33.3 40).3- 4020 31. 3 31I.7 '13 291' 3 '~ o 0, 3.8 88.1 89. 30.1 35. 901 94.3 32. 91 .391.5 8'.392.190.21 u- o .0 4'03.90. 40.1 31.7, 1.0 1
3"8 "'"I "0289. a83.1.99390.1 3 85.I 2' '30.2I9)4 .6''92 .0I"1. 2 91.5 8 8. 3921 90.61 0 .0 2 10 0040.2d 3 '340 4o1 013 31.33 16: -,
0.2 31 9.8 .93.1 89. 7S 90.1 95 .2, '30 .21 '34. 3 '32 .0 I91.2" 91.5 783.3 92.1I 90.6 3-0.074 02 39 8 0, 340. 1 3' 78 31.79 16:.'
1" 3 -8 33. 8'~00 ~ 9. 4 9. 121 84200 60 0.0 40. 2"'' '0 'a2 1 '17 31.7 1'3.8 1 .0 3.9.8 33.2 89.9 '30.1 8529.1 '94.3 92.2 91.3 '31.3 38.3 92,1 90.560064." 8 01 '1.33 3.33. 16 1
9') 3.0 090,3 89.9 88.2 89.7 9 0.21 85.29'0.219 4 .3192.19'1 .2 91.4283.39'2.I19 0.0 57 0. 08 410. 29'9 "40. 4 0.1 3' 2174 1
9) .3 "'2-1 '0.9 89.8 88.1 85.2 9'0. 15 .95.90.1 '34.7 92. 091.2 91.4 88.3 92.0 90.2 5 0.10 40.2 2.3 4).? ,3` '. 131.5 31 ..7 IQ
9 3 13 .9789.839.9.1 89.3 90.1 351.3 90.0 94.7, 92.0 91 .12 91.4 33.3 914.9 90.57i 0.11 40.;~39.9 40- ' 0.1 ~~ 31. 58 ~ .7 I
1331019.3.8.9.1I35. 290. 1 '479'2. 091 .2 91.4 238.320'30.5 c 0.01 40. 29.3 ~0. 1 40.0 1 31.6 10 632.7 93.1 90.0 89.8 88.0 898 9. 3. 01 947 9. 1. 148. 9919 '054 01 02 93 4. 4. 16 31.22 16:33
'3. 33.3,1 39.7 8H.0 89.3 90.0 35.12 , '30. 4.67 '3. 31. I 1.2 8.2 91.9 90.3 . 0.1 0340. 9.40140.0 15 1~ ':'
92733I087.9.8. 89.6 90085190 ~ .0 '3. 92. 11 1 3 8.2 '31. 0.4 5, 0.10 40.1 397 040.0. 7317 1.77 'S: `5
-923K9.0H .9.89.7838.0892.890.185. 290.194.691.9 91.1 9'1.2 38.03 91,.9 I90 .471 ( 0.0 40.2-- 3-3.8 401 . 40.0 31.63 I , 1 Ib:41'2793.0 8.2 89.7 88.0 '39.8 90.0 85.1 '30.0 94, 1.9 091.1 91. 83.2 91.9I90.42 0.010 10.1 39i.8 40.1 40.0 3.67, "±o 3 o:
92.792. 8.138.8 88.0 89. 90. 8.1 90. 9 24.6 92.0 91.1 91.2 88.291.90.43 0.09 40.1 29.9, 40.0 40G.0 16 1~ 1 6:
'3. 238. 9.79. 989. 8 5~0 . 1 9009,O3. 3. 9. 82'13'03 0.08 4.139. 39.3 39.9 316 I 1.7 1'J9229. 006. 8. 959. 5190 9. 19119. 8.2 91.9 90.4 0.0 40. 374. 00318 16 64'3. 3. 8. 978.0 890.3 9'0.0 ..1 90.0194.691. '31.1 91.2 88.2 319 9.3 .74013.74 4 0. 3.2 1 S11:43)927 2. 8. .997..3.9.2519. 4. 189. 113. 1990.4 0.04.2384.1003.6 3.7 165
'3. 308. 978. 98'008. 00'34.6 9131. 91.3 38.2 91.904 0.06 40.13.4,14, 311.73 31 .7 16:Z1.
9.9309.89.78.0 89.3 930. "085.1 90.9.2 91.3 91.1 9.3 829.29.600 40.0 '3.401 40. 31.8 318 16:
92.7 .13.08.4 189.7 88.0 83.7 '30.1' 85.1 90,. 1'34.73 '32 ,0'3 9.1 91.2 483. '32.0 9 0.4 S 0.07 40.1 33.3 40. J003.0317o65
'32.3.0, 98.91 89.7 38.1 89.8 90.0I 65.1 90.1 9'4.6 9 2. 0'I "91.2 '31. 88. 3 932.090.4 0.05 40.; 2. 39. 40.1 40.0 31.90 3I1.8 116:54H
'3.'309(01 89.3 38.0 33.6 '30 .1 35.1 '30.0 94 .7 9'313'31.1 '31.4 33.2 911.3 940. 51 0.05 40.21 39.7 4'0.2 40.0 31.85 31.3 1:
C ON N E I
Test30 , 3 . 8 0 4.3 30. 5 19 . 1. 1 1 a.2 .y D1tE R0.43 0ed 4(. 33 D0at 1.I) 3 5 ,
Test;Ed 3vG°W Dat'2 92-SM R, evi~ed e B/G , Date/;--/ Z23
E-3AMPACITY TEST. JOB NUMBER 94-0357. SAMPLE NUMBER 94-0357-01 DATA FILE C:\940357\4CIOGBC.001 12-05-1993
POSITION IPOSITION 2 POSITION 3 POSITION AVE AVG AMBIENT TEMPERATURE AMPS11 TIMET20 T21 T22 T23 T24 T25 T33 T27 T32 T29 T30 T31 TI T2 T3 Twave SLOPE Taal Taa2 Tam3 Taav It
19-m 9,4.1 ?0.1 89.9 28.1 29.7 90.1 '035.1. 90.1 94.7 q2.0 '41.1 91-5 89.33 221.0 90.57 0.06 40.2 301.3 110.1 40.0 31.52 21.51 16:5E, 0 q C. �! -10. 1, '34. - "I .9 -311 . 2 '31. 4 -3.: 0 --�O. 56 0.0!' 40.1 39. S 40.1 40) .0 31-2c ` 4 -'" I'- -C0 q 0 0 J OL UW O.-08.1 89. J 2I H. W2q 2,0q 0. 53 ".7 O' 11.77 1 6z�z 2,d 0.05 40.1 40.2 40.0 01.3088.1 9 35 19 L,sq.,; 'o.1 , 13. 1 '44, 140.0 31.80 1.78 IS:K.3 E�4 3-3. 888.1 S-3, 3'30, 135.1 90.1 94.7 ?". Iq I 91.� 88.1 92.0 q 13 . 0.05 40.1 840.. . J -JL
90.1 35.1 90.1 94.7 r.1 '41 .q1.1 39.�' "'. 090.50 0.05 40.0 �9.3 40.1 40.0 I . 711 31.66 17: OS?�. 3'3 30'03.2 39.8 88.1 39.3 4'10 35.8 88.1 H. 5130. 1 a 5 .210.1 '34.3 ') 2" . 0'31. 191.5 H.2 g 2 . 09OX O.Or 4O.', �9.3 4O." 40.0 '3 31.�7 17:�'J J a I J VI78 'I.78 17:0'g3.1 8?.; 89.8 88.1 89.9 90.1 85.2 90.2 94.7 91.0 91.') 91.1 28.1 92.0 90.55 0.04 40.14 29.3 40.2 40.1
K.2 .1 39.9 '30, 1 S" 5 .290. 1 94.7 '1121 . 091 , 2'; I . 28G.3 q 2 . 0H. -"3 0.0' 40. 0i9.3 40.1 40.0 '3 I . 75 31.71 117: (1:86. 383 S 139.1 39.9 88.1 39.9 '30. 18) 5 . "LI -1, 0 . 2 '34. 792. 09 1 .2) q I , 22 9 , 392 . 0'30.52 0.02 40.1 39.3 40. 'L' 40.0 31.62 3 'L . S 'O IO,�
n . 1go. 1313.8 33.0 013 . 6130. i2 5 . 41 130.0 1 a -� 2. 0 111.1 91.4 38, i! ̀K' . 0'10. 54 0.01 40.1 '39. 3 4 0 .'2 40.0 3 I . 7 7 0.1.76 I 7 082:11. 1go 3913 88.0 89.6 90.1 Sri .21 qo.l 392.0 31.2 31.5 q�.O -i O .5-, 0.01 4.1 '113. a40" Im 'i'a, 'I . 2.1 I,;0-OAJ O /Z
J; 29.? ;'491.2 "I 3 .130. 1 85. 21 3O. 14, 13 It . Iq2 .091 . I.2 38.3 '4 2" . 0"'O . 52' 0.01 40.1 39 , 3 4 0 .2' 40.0 J I . 73 2 I .2S.1 39.9 90.1 K. '30, 2 '34. 3-3.92.0 Q"�. 189.� 3-3 09 1 .2' 91.1 H.3 '12 . I910 .59 -O. 00 40.1 3: 9 .340. 240.0 31.82 1.1,
C 'JO. 1 '34. ?". 09 1 . 2S 483.11'30. 189 . "S 83.1 J %J L -JO'l. 39011 OJ. L �9 -0.0,� 40.1 340.2 40.0 3 IO389.ag 3. 1, I'14. K. '3 1 . 2' 9 1 . 238.3 O 2) . 090.52 -0.02 4O.'I 29. 340,2 40.0 31.63 il, 17-
439 .1 '30. 83. 338.1 V '11.5 -G.' OH . -C. O" 4 0 , �' �9.7 40. I I. 7-3L 3 O . I 'il . q .0 '31.-.11.7 go. I 5 - 'L I 4 V d 0
J,39.9 18.1 "9.8 90. 3r.; 90.1 21.8 92.0 91.? 91.r 88.' 9"). 09O." -0.00 40.1 740. 'O.O '!.S' 1 . 79 17: 1'.3w, 010.0 J I 34 4 3110.11, 11 .3 K .0 91. 1013. 9 .1 90.57 O.Aj 40.0 0.039. 813.11 18.1 39.9 90.1 8J .7 40.i.'L' qO . 2 '34. 892. 1'31 -0. f 40. 39.3 'O.2 40.0 "I.SO ".-8 1�-O 91) 89.0 89. 388.1 89.9 90.13 .3 91.2 3S.3 92.1 qO. K 52
r4l- 9 K . I39,f 39.9 38. 89. 3'30.I35. qO. I'34.3 '32? . I9 '2 '31.4 38.3 Ol 2'. I90.1-58 -0. 022 C . 029 . L; 40.11 40.0 21.77 II 11 .7 2" L7: I-7 -0.01 40.1 32. 340.1 10.0 Z1.79OqO9O H. I,5 !J9 34.3 '32. 091 q I. 408.1 9 2) . 120.61 It.1 - 311.13Q Sq. 9H. IOr. O.' Q 7S
G',. 03'4.3 8 8 . 2' 3q.q '10. 1S 5 . 21 qO. 'I 9'.2 K2 .I9 1 . 2' i� I28 8 . 13 '32. I'3 0 , r! -0.01 40 . 139,7 40.2 40.0 31,63 2 I , 'C 6 117: ! -740.0 �1.76 11.75 47, 'c0 H.O 38.1 89.3 90.1 8.' OO. 1 '34.7 191 .9 38.1 .0 '30.53 0.00 40" q . 'O' It939 9.49 0.2 J
O3 33,' Jb 17.-'3 -H. 739, 33.3 QI90.c' O. O( I'S9OL39. 7 030.1 8 0. 1?4,3 1 40.i 1q. 3 4 C). 40.0"q J J,'9'. 29 2 , ',) ?1.1 qI .4 8 8 . 3) K. 0q0. r7 0.01 40.1 ".3 40.� 40.1 6 q �'l.8939.8 39.1 J-7 9 0 . 1 K. '30. L i 7:0'30, 52 (.00 40,! '9.2 'O. 40.0 31 .'-G 0'1.679 .3 9 .0 H . 739.8 33.1 19. qO. 035.1 '�O, '34. 7'K. 0 I I , se . 2 13L 't 17-'2171 77nQ q q q 0 '14. 79!O I, 1.0 WI 8 - , LO 9 q 88.3 'K. 090.48 -0. 00 'O.', �"h 3'O.1 40.0 �I.77 17:
O
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11. ') 1 .9 '30.43 O. 0 1 LI! O . 1 T3, 7 L'O. 1 40,0 I . �: "' ", . ' 1 !,:O la " - "'C39 3.3 S 8 . 129.7 90.0 '�c. '30, 1) 94.17 9 2' .0q I . 1 I . JM � O 0 u, Q 0 iL I J'j cg 17:S 5 2' '30. I '34. 9 I . 999 .3 1811. 0 .3 88.0 99. �s. O .O .1 I . 83.0 Q I .13 go I 49 0.011 -'to. I'3 3 . 7, 40.2 40.0qt I.g ?(. 17 .1(I "3. 5 `9. 8 88.0 89 . 3 '30. 0 Sc.1 qO. 1 '34. 9 I . rj '31. 19 I . 3 68" . g117';1 a J 0 . 'j"' 40. S' 40 e40.1 11.60 ",.K 11
0 0 U J. 45". 90.0 go.I'9.8 'G.0 8'3. -q O. 0ar. 1'40. 0 '34. "I . 591.1 '31. 438. '11990.49 0 . O 240.1 39.7 40.1 40.0 101.63 31.61. J2 L
03"'. 039, 3'03.0 33.3 H . 0 K ." '30, I n 4 . Ill .13 91.i 9111 1-13 . 1� 1� 413 0 . 012 40 , 7 " 0 . 2' 40.0 3 'A 'O "r 17;L- 1J O'11 .3 q i'12) '59 'II Zq 'O, 0 TQq W'.C) -30.0S 89.0 89., 90.0 8c.1 30.0 94" ?1.3 31.0 91 ,7 33. L J I '6 K.4� .79Oq.- Oa.7 'S.0 Q.;. p ,I -�.O S-) q OJ - fv2 U 0 'I 4". 1^9.8 "O. O . 0 111.E' 17-LOO 0 0 q4, I 9 qI.O r4 I . R33' . I , 2 91 0 , 3,�4 q0. 4. 1.3 '11. 0 'I I . 88 . 22 I . 3 '30. 29 0.01 J0. 1 39. 40.1 40.03279E? �3 8� . 37 no 9787.9 89.2; 8i., Sj.I, 0 9I. I JL J/ Q 1j..'-L
2 .9?. q-10 9 . 129.7 S7.9 89.7 39.9 35.0 -�O. 0 "4, 5q I . 3qI . 091. 188.1 1. 3qO . 34 0.00 41). 1 39. 340.2 "to. 0 31.57 2I 1.0 01. I310. I"I . 39 0 . 'K' -0.00 40.1 Sq . 740. 40. U ') I . 6 't 21,67 !1-:.1 Oq.' ". 989.5 0.9.a '.0 Sq. O ':4. "z '31 .99DJ Ij
S I":"I . O '�O. -C, i 0 1 40.1, -3. 4 O. 40 q ')i n::q 38,737.9 09.5 Sq. 8 "r. 0 '14.1-2. 3 E l 91.14 qI . () '91.I32. L O .0 2 I . I0". 099.4 E,3 "O �5. O394 . 4. 591.9 91.0 91.3 38.1 q3 38 -O, 01 40.1 'O.9 40.1 'O.0 '!.S' " 1c S, 17--"1� 32.9O.0 89.7 37. 9 1 .go., v JD
w J j6"; 2! . 939.3 3g. 787.2 39.6 89, 9SC rr . USq. "I 94. 5; 91.7 90.9 9 1. II H. I '31 . 39 0 . 3 17 -0 . 02! d1l. 127'� .740.1 4 C) . 01.1.73 I-40.0 17&'3 2 7S0Q.-i 87. g39iS -0 OJ 0 3 -0.04 4.11 Z 3. 740.1 ji ill 1) I9.3 85.0 89.3 94.5 '31. '31 . 0 ': 0 . 9- 38.1, 11.3 9 0 . 23O 1�K.0 '?.S H.3 K, 9. 0 J t 'I W Li:0.0 .I 91. 111, 0 'i I . H . -1 I , 3 '30. 4, ).05 'O.1 9 40, 1 'O.0 .80 -3 OO
q 0 -- Q 7-0.66 40. 1 740.0 09,? 31,74 31.746'3 09. 533.7 8 .9 8 0 3q.9 '34. 6 9i.9 '31 . 0, " I . 2 38.1 ?1.3 '30.
2.13 39. 0 S 9 . 738.0 89.7 89. 9 85.1 96. 0 '3' . � 'I.3 9 '31. 'I 38. ',;I '10. 32 -O.Oi 'TO . I3'3.-7 40.11 40.0 31.72 si.i.'3 7 9 1.19-SK. 9'09.' 39.7 3'.9 H. 39.9 85.0 '30. 0 94.5 9 I , 00 31 . 11) 31.1 la, 8 . I'31 , 890.35 -0.09 40, 0'9.7 "to. I3 9 .Si 37 0 II I .9-8 91.3 9LI 9 1. 'I 83.189. 9 35.0 qO. 0 94.b I qqO. 'S -0.11 10.0 9.7 40.1 1q.1 11.74 3) 7,79.9 .0 3q.7 37. O'89 . 3 ;1 J,
73;.Q 88.9 99,7 38.0 S 9. 839.9 35.0 094.5 '31 .2 31.1 9I . 188.41 q 1 .Q90.0.7 -0. i2i 40.0 33.7 40.0 3 9 . 9 31 .73 31.73 IT-1). 3 .31 17;.3 9� 033.3 89.7 38.0 83.3 30.3 3c.1 90.0 '34,6 '31. 39 1. 0'? I 8G.2 ') 11 . '31 90. 41 -0.2 .4 0 . I33. 71 40. II 0 . 0 '2 I 'I'llJ CJK089.0 89.7, 88.0 89.3 841.9 85.' 90.0 34.5 91.3 91.1 '31.1 38.2 90.40 -0.1c 40.1 'Q.9 40.1 40. 0 31.77 3 I . `3 I-.-
W, 38 , 2 OI .3 90. 45g .7 9 .0 G3. 7'" . 7 88.0 S"I . 8 '30. 0 35.1 90.0 '34. 6 '31. 8 n I . 0 '31, 1 -0.16 40.1 8 4f). 'I 40.0 1: . S 2 'I- 13'J.7 '33 . C90.1 Sq. 3 88.0 89.6 130. 0 85.1 '30. 0 '34. 7 '? I .991.1 '�I.4 SS-', '3 1. 9 9 If.) . 5 0 -0.16 40.1 -9.7 10.1 40.0 3 I . 91 31 . 209-;. -7 0 OQ 3 8-J. 3 38.0 -q.� '30. 0 K .1 rjO. '34. 7 91. 0 '31. I'i I . II 88 . 2 '31. 9 '310.42�-O.17 40. '3. 3 40. 40.1 'I.39 1 1 . 1 1,7:Or, 9 2201.3 88.1 S9,8 OO 1 85.2 c'O. 1 9 4. 792'. 091 . 291.5 88.3 q 2 J! -0.1.6 40.1 29. b (.3 40. I O�-. Iv6: �-e . O130. r "' 4'" " ' "I . 9 6 'I-96
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89.- ';.S 88.1 90.0 90.2 3'." 9O.- 94.8 9'.0 91.'-) 91.4 8S.' Q-.1 90.61 -0.14 40.1 �'3.3 40.'�' 'O.! 11.9r 'I.q'12 . 8-3. 89-9 8 O . 239. Se '30. 'I Hi '30. 14.3 2-3 1 . I . 3) 38.3 S2. 1'30.vZO -0 . 1133 40.2 3) 9 . 9 4 0 . J" 40.1 3!.9b- 3; L .q 8
COMMENTS
E-4
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AMPACITY TEST. JOB NUMBER 94-0357. SAMPLE NUMBER,94-0357-.*- DATA FILE C:\940357\4C1083M.O00 12-08-1993
POSITION I POSITION 2 POSITION 3 POSITION AVE AVG AMBIENT TEMPERATURE AMPST20 T21 T22 T23 T24 T25 T33 T27 T32 T29 T30 T31 TI T2 :T3 Twave SLOPE Taal Tam2 Tam3 Taav It It TIME
90. 1 90.3 88.7 89.2 88.4 89.6 89.8 87.5 89.7 91.8 90.4 90.! 89.6 88.3 90.5 89.63 -0.02 39.6 39. 2 39.6t 39.5 22. 80 L22 .7 1 23 : 30i90.0 90.1 88.6 89.4 88.5 89.5 89.6 87.4 83.7 91.8 '30.7 30.2 89.5 88.8 90.6 83.63 -0.021 33.6 33. 2 39.6 33.5 22.17 2271 23190. 9.8.789.4 88.4 89.5 89.7 87.4 89.8 91.9 90.5 9 0.1 8968._0. 96 0.02 963. 963.123 27 33
'3.1028. 938. 958. 758. 199. 3. 89.6 88.8 90.5 89.61-00 39.6 39. 2 39 .639.5 22 .77 22.6 3390.1I 90288.78 89.3 88.3 89.5 89.,8 87.5 893.6 91.9 930.5j 90.0 893.6 88.8 90.5 89.6 -0.03 "39.6 "39.2 963. 27 27 33
0.9028.8938.8968.8758.9189. 90.1 89.6 88. 9.8.6-023.6 3 9.2 396 39. 5 L22,. 78 22.69 22:3
930.0 90. 2 88.8 89.4 88.4 89.5 89.8 87.5 89.6 91.9 90.5 90.1 89.6 88.8 90.5 89.64 -0.02 309.5 39.2 39.6 39.4 22.689 22.59 237:4090. 9018.L948. 958. 748. 199. 028. 889. 96 00 963. 963. 27 26 34
90.1 90.2 88.8 89.4 88.3 89.5 89.7 87.5 89.6 91.9 90.5 930.02 89.6 88.8 90.5 89.63 -0.023 39.5 39.2 39.5 39.4 22.72 22.65 -2 33490.1 90.2 88.8 89.4 88.3 89.5 89.8 87.5 89.7 '31.9 90.5 90.0 89.6 88.8 90.5 89.64 -0.02 39.5 3 9.12 39.6 39.4 2 2 .71O 2 2.671 23:43190.1 90.1 88.6 89.4 88.4 89.5 89.7 87.4 89.6 91.8 90.7 90.2 89.6 88.8 90.6 89.63 -0.03 39.5 39.1 39.5 3945 227 69 2.61 `:3:490.1 90.2 8.8.48489 5 89.78759. 91.9 90.5 90.1 89.6 88.8 90.5 89.63 -0.03 39.5 39.2 33.5 39.4 6 22.35L2 158 23:490.1 90.1 88.6 89.3 88.4 89.5 89.6 87. 8979. 069. 95 879. 96 00 3953. 948 26 34
9019.L878. 838. 978. 969. 04'008. 889. 96 00 3953. 9. ' 7 2264 23:4799019. 87 948. 9. 988. 89.8 91.9 90.5 90.1 89.6 88.8 90.6 89.63 -0.03 39.5 92 39.1 39.5 9 ~ , 22 .61 23:4
90.0 90.31 88.6 89.4 88.4 89.4 89.6 87.4 89.7 91.9 90.6 90.1 89.5 88.7 90.6 89.59 -0.04 39.5 3 9.12 39.5 33.4 268 22.62 23:5090.1 930.2 88.7 89.3 88.3 89.5 89.6 87.5 89. 7 91.39 90.4 90.1 89.6 88.7 90.5 89.60 -0.04 39.4 393.1- 39.46 93-522 7 12 22.6390.0 90. 2 88.7 89.2 88.3 89.6 89.7 87.5 89.7 91.8 90.3 90.0 89.5 88.8 90.4 89.58 -0.05 39.5 39.1 2339.35 39.4 22 .722' 5 34t90.0 01 388. 89.2 88.3 89.6 89.78 87.5 89.7 931.79 90.4 '30.1 89.5 88.8 90.5 89.57 -0 .05 39.4 39.1 39.4 "' 31.422.71 '0I 2L 60 1 13890.9 90.2 88.7 89.2 88.3 89.5 89.7 87.5 89.6 91.8 '30.4 90.0'L 89.5 88.8 90.4 89.57 -0 .05 39.3 39.0 3'9. 39, L`2. 66 22 6 23: 489,9 90.0 38.6 89.3 88.4389.4 89.7 87.3 83.8 91.8 90.5 90.0 89.4 88.7 90.5 89.55 -0.06 39.4 39. 039.5 19.4 672 *'6 ;053 -")890.9 90.1 88.6 89.1 88.3 89.5 89.7 87.4 89.8 91.7 '30.3 90.0 89.4 88.7 90.4 89.53 -0.07 39.3 39.1 39. 4 39.3 21. 6 :4
90.0 930. 1 88.6 89.2 828.3 89.6 89.7 87.4 89.7 91.7 90.4 90.1O 89.5 88.8 90.5 89.57 -0.07 29.2 39.1 39.5 39. 22 b2.722- ):4
90.0 90.0 88.67 89.4 88.4 899.4 89.6 87.3 89.6 91.8 90.6 90.1 89.5 B88. 90.5 89.57 -0.08 39.5 39.1 39.4 39.3 2 2. .74 22.67 200:4jU90. 0 '30.2 88.6 89.2 88.3 89.5 89.7 87.5j 89.7 91.8! 90.3 90.0 89.5 88.8 90.4 89.57 -0.08 39.45 39.0 139.4 533.3 2 2.7 4 20:01 234r
90).0O 90.2 3O8.7, 89.34 88.3 89.4 89.7 87.4 89.6 91.8 90.4 90.0 89.6 88.7 90.4 89.57 -0.09 39.4 309.0 39.5 39.3 r 2.Th ' 6 2'2 0:231590.0 '30.2 88.7 89 .3 88.3 89.4 89.7 87.4 89.5 91.9 90.5 90.0 89.5 88.7 90.5 89.57 -0.04 9 3. 4 39 II. 139.4 39.3 212 .7 "'IL 2 00:03I
90.0 9 0.1 3 8.7 39.32 88.3 89.4 89.6 87.4 89.7 931.89 90.43 90.1 89.5 88.7 90.4 89.57 -0.09 39.3 39.1 39.3 -39r. )2 2)0 22.6 5 00:090.0 9I10. 1 88.5 891. 2 88.3 89.6 89.67 87.4 89.87 91.7 90.4 90O.1 89.4 88.7 90.5 89.56 -0.09 39.34 39.1 -3.54 39. 3 226 22540 00:06
99' 018. 928. 958. 743. 89. 013. 379. 95 01 39.3 390 33.43 33,2 22.G I~ = 0:089.9 90.1 88.7 8 9.12 88.2 89.5 89.7 87.5 89.6o 91.7 90.3 390.9 89.4 88.7 90.4 89.52 -0.10 9.3 39. 3 I. 39. 226 L2.2 O
89:.431 90.1 88.6 89.2 88.2 89.4 89.51 87.4 89.6 '31.8 90.3c 90.1 39.4 88.7 90.4 89.52 -0.11 39.2 319 .0 139.3 39.3 22.69 2 2.6 00:102-83.8 90. 88.6 893.3 .88.3" 89.4 89.6 87.3 89.6 91.91 90.5 90.0 89.4 88.7 90.5 89.52 -0.12 39.2 319.01''Q 3. 4- 39.32 22.70' 422 . U~ 00:1189.3 9 0.0 383.6 89.32 88.3 89.4 89. 7 87.31 89.6 91 .8 90.5S 90. 0 89.4 8 8.7 930. 5 89.53 -0.127 39.1 39".0 39 .5 39 .2 22. 76 22.632 012T 590. 0 90.01 86.6 89.3I 83.3 89.4 89.7 87.34 89.6 191.8 790.5 90.0 8 9.5 88.7 90.5 89.54 -0.12 39.2 39.0 39.339.2T 272.8 26 0190. 0 90.0i 88.6 893.3 88.3 89.46 89.6 87.3 89.5 91.8 90.5 90.0 89.5 8.8. 90.4 89.53 -0.13 39.2 319.01 39.45 39.23 22.745 22.64 7 2 35''30.0 '30.1 8 8.7 89.3 88.3 39.4 89.6 7 37. 89.7 91.89 '0.4 90.0 83. 5 88.7 90.5 83.57 -0,183 39.25 39.0 39. 39. 22.371 22'. E70 00 15
90.1 90. 3368. 8. 968. 8748. 3. 3. 013. 839. 95 01 913. 3. 4 -4 - 7" 82 62.' (O)'900 0.2I 88.6 89.2" 86.3" 89.5~ 89.7 87.5 89.6 91.8 930. 3 90.0 89.5 88.8 '30.4 89.56 -0.183 39.2 903.3, 2 b C
'3. 0. 663928. 8963.I7t3. '139. 008.53. 3. 95 -0.13 39.3 39 .03 39.2 '2 22 .22,' 090.0 90.1 88.7 89.4 88.3 89.'4 89.7 87.4 89.6 91.9 90.6 90.1 89.6 88.7 90.6 89.60 -. 233390 39.4 ~ 2 h .'30.0 90.0 8S .6 89.4 88.3 89.4 39.7 87.3 89 .5 91.93 '30.6 930. 0 39.5 38.7 90.5 89 .567 -0.0 12 9.3 33.1 39;.4 3)9 ,2,.7022 680 00:0190.1 90. 0 8.68948.8948.8738.9189.902 958.790.6295 01 9. 903. 24 22 .5 0:0
9009. 6789.4 88.3 39.4 89.6 87.40 89.6 91.9 90.6 90.2 89.6 88.7 90.6 89.60 -0.109 39.3 39 .0 39.4 392 2I8 2.L 02940, '0 9. 1 38.6 89, 3 88.4 8'9.4 89.6 87.4 89.17 '31.7 '30.5 90.2 89.5 88.8 90 .5 891.60 -0 .09 393.31 35.1 3 9.5 339.3 22.77 " 22.63 00:2590.06 90.2 88.7 89.3 88.3 89.5 89.7 87.5 89.6 91.8 '30.4 90.0 39.6 88.8 90.4 89.58 -0.09 3I9 .30 39.01 39.4 39.2u; 22.90 2,2.68 00:2690.1 '30.2 88.7 89.3 88.3 89.5 39.7' 87.835'199.9008.8389.3.9-00 3.3303. 33 2.2 222 .U,
890. 1 90.21 88.6 89.2 88.3 89.6 69.6 87.5 89.7 91.3 90.4 930.1 89.5 88.7 930.5c 89.61 -0.081 39. 3 39. 22 -. -I' 227 00 :28
90,1 '30.2 38.6 89.2 88.3 89.6 89.7837.5 89.7 '31.8 '30.4 90.0 39. 5 88.3 '30.5 83.64 -0.082 39.34 331. 0 33,.4 339. 2 12,70 22.56 00:2I
"IO. l QIEN SS. 9~ 8 948. 703. 189.C9. A3. O 95 01 923. 0. ,.22 LE
Tetd U7 ji4 a2~ Z
AMPACITY TEST. JOB NUMBER 94-0357.E-5 , ' 5F3
SAMPLE NUMBER 94-0357-4 DATA FILE C:\940357\4C1O63M.001
POSITION I POSITION 2 POSITION 3 PaSiTION AVE AVG AMBIENT TEMPERATUREJ20 T21 T22 T23 T24 T25 T33 T27 T32 T29 T30 T31 TI T2 T3 Tvave SLOPE Tail Tam2 Tam3 Tanv
o 90. 188.6 89.28 8.4 89.6 89.6 87.5 89.6 91.8 90. 90.2 89.5 88.8 30.5 89. 599. 0 930.2 88.7 89.3 88.3 89.5 89.7 87.5 89.7 91.3 90.4 90.1 89.6 88.8 90. 89.6190.0 900 88.6 89.3 88.4 39.5 89.6 87.3 89.8 91.8 90.6 90.2 89.5 88.7 90.6 89.5990.o0 30.1 88.7 89.4 88. 3 89. 4 89.8 87.4 89.8 91.9g 90.6 90.1 89.6 88.7 90.6 89.6390.0 90.2 88. 89.2 88. 3 89. 6 89.7 87.5 89.8 91.8 90.4 90.0 89.5 88.8 90.5 89.5989. 9 90.1 88.7 89.3 88.3 89.4 89.7 87.4 89.5 91.9 90.5 90.1 89.5 88.7 90.5 89.5790.0 90.0 8.5 89. 3 88.4 89.5 89.6 87.4 89.7 91.8 90.6 90.2 89.4 88.7 90.6 89.5889.9 90.1 88. 7 89.3 88 3 89. 4 89. 6 87 4 89.5 91.9 90.5 90.1 89.5 88.7 90.5 89.5690. 1 90.2 88.6 89.2 88. 3 39. 89. 7 875 89.6 91.8 90.3 90.0 89. s8.8 90.4 89.5790. 90.0 88.6 89.4 88.4 89.5 89.6 87.3 89.6 91.8 90.6 90.1 89.5 88.7 90.5 89.5790.o0 90.0 8.5 89. 3 88. 4 89.5 89. 6 87.3 89.6 91.8 90.6 90.1 89.4 88.7 90.5 89.5690.0 90. 88.6 89.3 88. 4 89.5 89. 6 87.3 89.7 91.8 90. 6 90.2 89.5 88.7 90.6 89.5890. 90. 88. 6 89.2 88.4 89.6 89.7 87.4 89.7 91.8 90.4 90.1 89.5 88.8 90.5 89.5990.0 90.2 88.6 89.2 88.3 89.6 89.7 87.5 89.7 91.8 90.3 89.9 89.5 88.8 90.4 89.5790.0 90.2 88.7 89.2 88.3 89.5 89.7 87.5 89.6 91.8 90.4 90.0 89.5 88.8 90.4 89.5730.0 90. 0 88.6 39.3 88.3 89.4 89.6 87.4 89.5 91.8 90.6 90.2 89.5 88.7 90.5 89.5690.0 90. 88.5 89.2 88.4 89.6 89.6 87.4 89.6 91. 90. 5 90.2 89.4 88.8 90.5 89.5790.0 90 s.1 887 89.3 88.3 89.4 89.7 87.4 89.6 91.9 90.5 30.0 89.5 88.7 90.5 89.5790.1 90.2 88.6 89.2 88.3 89.6 89.7 87.5 89.8 91.8 90.4 90.1 89.5 88.8 90.5 89.6190.0 90.2 88.6 89.2 88.3 89.5 89.7 87.4 89.7 91.7 90.3 90.0 89.5 88.7 90.4 89.5590.0 90.1 88.7 89.3 .88.3 89.4 89.7 87.4 89.7 91.9 90.5 90.0 89.5 88.7 90.5 89.5890.0 90.0 88.5 89.3 88.4 89.5 89.6 87.4 89.8 91.7 90.5 90.2 89.4 88.7 90.6 89.5789.9 90.0 88.6 89.3 88.3 89.4 89.6 87.3 89.6 91.8 90.6 90.1 89.4 88.7 90.5 89.5490.0 90.0 88.6 89.3 88.4 89.5 89.6 87.3 89.6 91.8 90.6 90.2 89.5 88.7 90.6 89.5790.0 90.1 88.5 89.2 88.3 89.5 89.7 87.4 89.7 91. 7 90.5 90.1 89.4 88.7 90.5 99.5689. 9 90.0 88.6 89.3 88.3 89.4 89.6 87.4 89.6 91.8 90.6 90.0 89.4 88.7 90.5 89.5490.0 90.0 88.6 89.3 88.3 89.4 89.6 87.3 89.6 91.8 90.6 90.1 89.5 88.7 90.5 89.5590.0 90.2 88.7 89.2 88.2 89.5 89.6 87.5 89.6 91.3 90.4 900 39.5 88.7 30.4 89.5690.1 90.1 88.5 89.2 88.3 89.5 89.6 87.4 89.9 91.7 90.5 90. 89.5 88.7 30.5 89.5790.0 90.1 88.5 89.2 88.3 89.5 89.7 87-.4 89.7 91.7 90.4 30.0 89.4 88.7 90.4 89.5489.9 90.0 88.5 89.2 8B.4 89.5 89.6 87.3 89.7 91.7 90.6 90.2 89.4 88.7 90.5 89.56'30.0 90.2 88.6 89.2 88.3 89.5 89.7 87.4 89.7 931.8 90.3 90.0 89.5 88.7 90.4 89.56
, 90.0 88.6 89.3 88.3 89.4 89.7 87.3 89.7 91.8 90.5 90.1 89.4 88.7 90.5 89.5530. 1 88.5 89.2 88.3 89.5 89.7 87.4 89.7 931.7 90.3 90.0 89.4 88.7 90.4 83.5390.2 88.6 89.2 88.2 89.5 89.7 87.4 89.5 91.8 90.3 89.9 89.5 88.7 90.4 89.52
39 0. 83.7 89..3 88.3 89.4 89.787.4 89.5 '31.8 30.4 90.0 89.5 88.7 90.4 89.5490.1 90.1 88.5 89.2 88.3 89.5 89.6 87.4 89.7 91.7 90.4 90.1 89.5 88.7 90.5 89.5589.9 30.0 88. 89.3 88.4 89..4 89.6 87.3 89.5 91.8 90.6 90.1 89.4 88.7 930.5 89.5390.0 90.1 88.6 89.2 88.3 89. 5 89.7 87.4 89.6 91.7 90.3 90.0 89.5 88.7 90.4 89.5389.9 90.0 88.6 89.3 88.2 89. 4 89.6 87.3 89.5 91.8 90.4 90.0 89.4 88.6 90.4 89.50I90. 90.2 88.6 89.2 88.? 89.5 89.7 87.4 89.6 91.7 90.3 89.9 89.5 88.7 90.4 89.5390.0 90.1 88.5 89.2 88.3 89.5 89.6 87.3 89.7 91.7 90.4 90.1 89.4 88.7 90.5 89.5390.0 90.1 88.5 89.2 88. 89. 5 89.5 87.4 89.5 91.7 90.4 90.1 89.4 88.7 90.4 89.5289.93 30.0 88.6 89.3 88.3 89.4 839.7 87. 3 9.8 91.8 90.5 90.0 89.4 88.7 90.5 89.5589.9 0.1I 88.6 89.2 88.2 s9.5 89.7 87.4 89.6 91.8 90.3 89.9 89.4 38.7 90.4 89.5289.9 90.0 88.5 89.3 88. 4 89. 5 89.7 87.3 89.7 91.7 90.5 '30.0 89.4 88.7 30.5 89.5489.3 90.1 88.6 89.2 88.2 89.5 89.7 87.4 89.6 91.8 90.3 89.9 89.4 88.7 90.4 89.5290.0 90.1 88.5 89.2 88.3 89.6 89.6 87.4 89.8 91.7 90.4 930.1 89.4 88.7 90.5 89.5689. 9 90.1 88.6 89.3 88.3 89.4 89.5 87.4 89.6 91.9 90. 4 90. 1 89.5 88.7 90.5 9. 5389.9 89.3 88.5 89.2 88.3 89.4 89.7 87.3 89.5 31.7 30. 5 839.9 89.4 38.7 '30.4 89. 4890.0 90.1 88.5 89.1 88.3 89.5 89.5 87.4 89.5 91.7 90.4 90.0 89.4 88.7 '30.4 89.5090.0 30.0 88.5 89?.2 88.3 89.5 89.5 87.3 89.7 91.7 90.5 90.1 893.4 88.7 '30.5 89.5339.9 89.9 88.5 89.2 88.3 89.4 89.6 87.3 89.7 7917 90.5 d90.1 39.4 88.7 930. 89.518 90.3 9.1 88.5 89.1 88.2 89.5 89.6 87.4 39.4 91.7 90.3 89.9 89.4 88.7 90.3 89.4789.9 90.0 88.5 89.1 88.3 89.5 89.6 87.3 89.5 91.7 90.4 89.9 89.4 88.7 90.4 89,4789.9 '30.0 88.6 89.3 88.3 89.3 89.6 87.3 89.5 91.8 '30.5 90.0 89.4 88.6 '30.4 893.5190.0 90.1 88.5 89.1 88.2 89.5 89.6 87.3 89.5 91.6 90.3 39.9 89.4 88.7 90.3 89. 4730.d0 90.0 38.5 89.3 88.3 83.4 89.5 87.3 39.5 91.7 90.6 90.1 89.4 88.6 '30.5 89. 5290.0 90.1 88.5 89.2 88.3 89.5 89.6 87.4 89.5 91.7 90.4 89.9 89.4 88.7 90.4 89.5190.0 0. 1 38.5 89.2 88.3 39.5 89.7 87.4 89.6 91.7 '30.4 82.9 89.4 88.7 90.4 89.53
-0.07 39.3 39.0 39.4 39.2-0.06 39.4 39.0 39.4 39.3-0.06 39.4 39.0 39.4 39.3-0.05 39.4 39.0 39.4 39.3-0.05 39.4 39.0 39.4 39.3-0.05 39.4 39.0 39.5 39.3-0.04 39.4 39.0 39.3 39.2-0.04 39.4 39.0 39.4 39.3-0.03 39.4 39.0 39.4 39.3-0.02 39.4 39.0 39.4 39.3-0.02 39.4 38.9 39.3 39.2-0.01 39.4 39.0 39.3 39.2-0.00 39.3 39.0 39.3 39.2
0.00 39.4 39.0 39.4 39.30.01 39.2 38.9 39.4 39.20.01 39.3 38.9 39.3 39.20.01 39.2 38.9 39.3 39.10.02 39.2 38.9 39.3 39.10.03 39.1 39.0 39.3 39.10.03 39.0 38.9 39.3 33.10.03 39.2 39.0 39.2 39.10.03 39.0 38.9 39.4 39.10.03 39.0 39.0 39.3 39.10.03 39.0 39.0 39.2 39.10.03 39.1 39.0 39.1 39.10.03 39.1 38.9 39.2 39.10.02 39.2 38.9 39.4 39.20.02 39.2 39.0 39.2 39.10.02 39.2 38.9 39.3 39.10.02 39.3 38.9 39.3 39.20.02 39.0 38.9 39.2 39.00.01 39.1 38.9 39.2 39.10.01 39.1 38.9 39.2 39.10.01 39.1 38.9 39.3 39.10.00 39.1 38.9 39.2 39.10.00 39.1 38.3 33.2 39.0
-0.00 39.1 38.9 39.3 39.1-0.01 39.1 38.9 33.2 39.1-0.02 39.0 38.9 39.2 39.O-0.03 33.2 38.9 33.2 39.1-0.04 39.2 38.9 39.3 39.1-0.05 39.2 38.9 33.1 33.1-0.05 39.2 38.9 39.2 39.1-0.06 39.3 38.93 39.3 39.2-0.07 39.2 38.9 39.3 39.1-0.07 39.3 38.9 39.3 39.2-0.08 39.2 38.9 39.3 39.1-0.07 39.2 38.9 33.3 39.1-0,08 39.2 38.9 39.2 39.1-0.08 39. 28.8 39.3 39.1-0.09 39.2 38.8 33.3 39.1-0.09 3.2 38.3 39.3 39.1-0.09 39.2 38.8 39.2 39.1-0.10 39.2 38.9 39.3 39.1-0.10 39.3 38.9 39.3 39.2-0.10 39.3 38.8 39.3 33.1-0.11 39.2 38.9 39.2 39.1-0.11 39.2 38.3 39.3 39.1-0.11 39.2 38.8 39.2 39.1-0.10 35.2 38.3 39.2 39.!
COMMIENTS
Tested 3 Date/ 2- -9 3 Reviewed By I
12-09-1993
AMPSIt I ' TIME
'"70
74122.76
W 22782275
') 7522 7122.72
22.7222.7622`.L78
228122.7622 74
22.7022.76D
22.7722.74"2.72
22. 722.7022.782'. 7022.79'V*4 I-L .f II
2.3122.74
22. 72
22. 7
22.75
22.70
22.762231
1? 73D*...) *7 3
22.69
22.7022.7022.66
2'76
22.6922.76.. ', '7,
L. I..,
22.7822.8022.8622.76
22.68
~2650.-. OnL..DL; . O22.6722.6622.66
-2. 662
2b666 bb
22.6322721 b2.*4' r,
-2. 6022.6222.6222.60
22.6922.61
JO r,
22.5722.6722,58
22.6422.67
.a.. J.~
259
22. u J
' 6
'64
22.657
2-. 6022.58
22.56~i
L-4. .4J4
22.61
22.70
22.67
24.61}
00:3000:31
00:300: 3300:3400: 3500:3600:3700:3800:3900: 4000: 4100: 4200:4300:4400: 4500:4600: 4700:4800:4900:5000:5100:5200:5300: 5400: 5500:56
00: 580o:5,01:0001:0101:0201:0301: 0401:0501:0601:0701:0801: 0901:1001:110(1:1201:1301:1401:1501:1601:1701:180 1:9 I01: 0
01:2201:23.)1:24
01: 2701:28;j1:29
Da te JL2 ,J 4 -2
E-6 (~AMPACITY TEST. JOB NUMBER 94-0357. SAMPLE NUMBER 94-0357-4- DATA FILE C:\940357\4CIOG3M.00l 12-09-1993
POIIN1POSITION 2 POSITION 3 PCSITION AVE AVG AMBIENT TEMPERATURE AMPS
~20 121 T22 T23 T24 T25 T33 T27 T32 129 T30 T31 T1 T2 13TwaeSOETi a2Tm v I ' TM
9008. 9.3 88.3 89.4 89.5 87.3 89.5 '31.7 9. 9 0; 89.4 88 05:89.52 -0.10 39.2 36.82'9.33~9.1 2272 261 0 1:30
9.0 90.108. 88. 8828958.68.48. 3 .7 30.3 9. 89.4 88.7 90.3 895 01 92 833. 91 227 26 13
90.0 90.1 88.6 89. 2 88. 2 89.4 89.7 87.4 89.7 91.8 90.3 89.9 89.5 88.7 90.4 89.53 -0.10 39.2 348.9 39.2 39.1 2-2.74 22.I 01:321
90.0 90.1 88.6 89.3 88.2 89.4 89.5 87.3 89.7 31.2 90.4 890.1 89.5 88.6 90.5 89.53 -0.09 39.3 38.9 39.3 39.2 22.6 22.60 01: 33
89.9 90.1 88.6 89.2 88.2 89.4 89.5 87.4 89.5 91.8 90.4 90O. 189.4 88.6 90.4 89.51 -0.09 39.23 38.9 39. 3 39.1I 22.650 22.550 011:34
89.9 90.1 88.6 89.1 88.2 89.4 89.5 87.4 89.3 91.7 90.3 90.0 89.4 88.6 90.3 89.46 -0.09 3I9. 2 38. 9 39.33 39.1 22.70 22.605 01:35
89.9 90.0 88.6 89.3 88.32 89.3 89.6 87.3 89.7 91.8 90.5 90.1 89.4 88.6 90.5 89.53 -0.09 39.3 38.9 39.4 39 .2 22.67 22.57 01:36
89.9 89.'3 88.4 89.2" 88.3 89.4 89.6 87.2 89.6 91.6 90.4 89.9 89.3 88.6 90.4 89. 45 -0.10 39.2 38.9 39.2 3,9.1 2270 22.58 01.37
89.9 89.9 88.5 89.2 88.3 89.4 89.6 87.3" 89.6 91.~6 90.4 89.9 89.4 88.7 90.4 89.47 -0.10 39.1 38.8 39.3 39.1 22.70 22.57 01:38
89.9 90.0 88.4 89.2 88.38. 896 73 89.6 91.6 90.4 89.9 89.4 88.7 90.4 89.47 -0.10 39.1 38.9 39.21 39.1 22.70 2"I.56r 01:391
89.9 90.0 88.4 89.1 88.2 89.5 89.4.87.3 89.4 91.6 90.4 '30. 089.3 88.6 30.3 89.43 -0.11 39.2 38.9 39.0 39.0 22.71 22.5r9 01:40
8998. 8489.2 88.3 89.4 89.6 87.2 89. 169.4 89.9 89.3 88.6 90.4 89.45 -0.11 39.3 38.9 39.2 39.1 22.70 2258 014
89.9 89.9 88.5 891.2 88.3 89.3 89.6 87.2l 89.7 91.7 90.5 90.0 89.4 88.6 90.5 89.48 -0.11 39.2 38.8 395.2 39.1 2.75 22.62 01:42
89.8 90.1 88.6 89.1 88.1 89.4 89.4 87.3 89.4 91.7 90.3 90.0 89.4 88.6 90.3 89.43 -0.11 39,2 38.8 39.2 39.1 2.73 22. 64 01:43
999008.8928. 893 89.6 87.3 89.6 91.8 90.3 89.9 89.4 88.6 '3. 4 89.47 I 0.11 39.2 38.8 39.2 39.1 22.74 2261 01:44
89.8 90.0 88.6 89.2L 8 8.2I 89.3 89.4 87.3 89.6 91.7 90.4 930.0 89. 4 88.6 90.4 89.46 -0.12 39.2 38.8 39.2 39.1 22.70 2 2.61 I 01:45
89.8 89.9 88.4 89.1 88.2 89.4 29.6 87.2 89.6 91.6 90.3 89.9 89.3 88.6 90.3 89.42 -0.12 39.1I 38.8 39.2 '39. 0 22. 72 222.58 01:46
89.9 '30.0 88.6 83.24 88.1 89.3 89.5 87.3 89. 491.7 '30.3 90.0 39.4 88.6 90.3 89.44 -0.12 39.1 38.8 39.2 309.0 '22.77 22 I.65 J 01:47
89.9 90.0 88.6 89.2. 88.2 89.3 89.5 87.3 89.6 91.7 90.3 90.0 89.4 88.6 90.4 89.47 -0.12 39.1 38.8 39.0 39.0 22.69 22.55 01:48
89.8 90.0 88.5 89.1 88.1 89.3 89.6 87.3 89.6 931 .790.3 89.9 89.3 88.6 90.4 89.43 -0.12 39.1 38.8 39.2 39.0 22.71 2 2.5 7 01:49
89.8 90.1 88.5 89.1 88.1 89.4 89.5 87.4 89.6 91.7 90.2 90.0 89.4 88.6 90.4 89.45 -0.12 39.1 38.8 39.2 39.0 22.72 22.9 01:50
89.8 89.9 88.4 89.1 88.2 89.4 89.4 87.2 89.5 91.6 90.4 '30.0 89.3 88.6 90.4 89.41 -.12 39.1 38.8 39.2 39. 0 2.7 2.6 015
89.3 89.9 88.4 89. '2 88.3 89.3 89.5 87.2899.4 91.7 90.5j89.9 89.3 88.6 90.4 89. 42 -0.13 39.2 38.8 39.2. 39.1 2270 22. 59 01:52
89.9 89.9 88.4 83.1 88.3 89.4 89.5 87.21 89.4 931. 690.4 930. 089.3 88.6 90.3 89.42 -0.13 39.1 38.8 39.3 39.1 22.70 225' 0 1 :53
89.9 89.9 88.4 89.2 88.3 89.4 89.4 87.2 89.3 91.6o 90.5 90.0 89.3 88.6 90.3 8 9 .42 -0.13 39.0 38.8 339 .2 339 .0 22.71 22.60 01:54
8. 8398.8928. 8938. 8728. 91790.4 90.0 89.4 88.6 90.4 89.46 -0.13 39.1 38.8 39.2 39.0 22.2 22.57 01:55
89.9 90.0 88.5 89.1 88. 89.4 89.5 87. 3 89.4 91.6' 90.3 89.9 89.4 88.6 90.3 89.433 -0.13 39.2 38.8 3 9.3'O 39.1 22 .6 6212 .56 01:56
89.9 89.9 88.4 89.2 88.3 89.4 89.6 87.2 89.5 931. 690.4 89.9 89.3 88.6 90.3 89.44 -0.13 39.1 38.8 39.2 39.0 22. 77 2 2 .6 3 01:57
89.9 90.0 88.6 89. 2 88.21 89.3 89.4 87.3) 89.5 91.8 90.3) 90.0 89.4 88.6 90.4 89.46 -0.13 39.2 38.8 39.2 39.1 22.82 22.7 3 01:58
8999. 8. 918.28. 95 748. 91.7 90.2 90.0 89.4 88. 9048.7-.23. 8839.2 39. 0 22.76 2.4 0:'
89.8 9 '0.01 8.65 89.2 88.2I 89.3 89.5 87.3 94 9 1.7 9038. 948.6 90.3 89.44 -0.12 39.2 38.8 3. 390 278 22. 64 02 :00'
8999. 858. 82 89.4 89.5 87.3 89.4 91.67038.98. 90.9038.3 01 9. 883903, 22.74 226 0:
69.'3 90.0 88OSQ .4 89.1 88.3 8948.2728969. 0489.9 89.3 88.6 90.4 89.45 -0.12 3 9 .2 38.8 39.2 91 22.4 E 0-:0
59.9 90.0 88.4 89.1 88.,2 89.4 89.6 87.3 89.5 91.6 90.3 89.9 89.3 88.6 30.3 89.43 -0.12'L 39.2 38.8 39.2 39.10 22.68 2' 2 021 o
8988. 858. 828. 958 .29. 91.7 90.5 89.9 89.3 88. 9048.3-0.12 39.2 38.8 39.1I 39.0 22'.70 22.57 'J2 O`
89.9 '30.1 88.5 89.1 88.1 89.4 89.5 87.32949. 028 8989486 90.3 89.43 -. 2 3913. 39.3 39. 2.6 ~ 020
89.' 9 '0.0 88.5 89.2 388.2 89.3 89.4 87.2 89.4 91.7 90.4 90 8948.J04 94 01 3903.J3.)3 .9 2.6 22.50 020
8988.8848.9828948. 728. 169 . 9 90.0 893 88.6 9 0 .3 89.40 -0.12" 39.1 38.8 39.1'L 39.0 22. 65 22.5 02
890.8 89.9 88.4 89.1 88.2 89.3 89.4 87.2 89.5 91.6 90.4 90.0 89.3 88.5 90.4 89.40 -0.12~ 39.2138.8 39.1 39.0 22.74' 5'. 2 021'4
89.8 890.0 88.4 89.0 88.1 89.4 89.4 87.2 89.4 '31.5 90.2 893.9 89.3 88.5 90.3 89.36 -0.3 39.1388 3. 39.0 227 i "1
89.8 90.0 88.5 89.1 38.1 89.3 89.3 87.3 89.4 91.6 90.2 89.9 89.3 88.5 90.33 89.38 -0.13 39.1 38.8 39.0 39.01 22.66 22 .564 02:06
89.9 90108 88.4 89.1'L 388.2 89.23 89.5 87.1. 89.6 91.6 90.4 890.9 89.3 88.5 '30.4 89.438 -0.13 39.1 38.73 138. 9 38.9 22~.78 22.50.b :
89.8 89.83 988. 928. 938. 728.1.4 89.419. 8.3886 89.894 01189 883. 89 22.7 .J., IU 14
8978.4858928. 3289.5 8 7. 2 89.6 91.6 90.4 89.') 89.3 88.5 90.4. 89.40 -0. 13 39.0 38.8 39.0 38.9 2.67 2 U21
89.8 90.0 88.4 89.0 88.1 89.4 89.4 87.2 89.3 91.6 90.2 89.8 89.2 88.5 90.2t 89.352 -0 .II)39. 38.9 38. 39.2 0 39.0 2`2 .67 !22 . U 0 ,6
89.8 89.8, 88.3 89.1 88.2; 89.3 8 9 .4 87.1 89.3 91.5 90.4 9 0. 089.3 88.5 90.3 89.35 -0.13 389.8 38.7 319.0 38.0 2!2 .63 4 3 0 2-:
89. 8 '30.0 88.4 89.0 88.1 89.3 89.4 8 7.3'2 89.5 931.6 '30.1 8').' 89. 3 88.5 90.3 89. 37 -0.14 '39.01 318 .8 38.90 38.') 22.72 5' 98 0J2t I
89.8. 90.0 8U.45 89.0 88.1 89.33 89.5 87.31 89.4 91.6 90.1 89.8 89.31 88.6 90.2 29.,36 -0.14 380?.9 38.3 39.0 389 22.0 2 4.6 '22 . 02
89.8 89.') 88.3 89.0 88.2 89 .4 89.4 87.2 89.3 91.5 90.3 90.0 89.3 88.6 90.3 89.36 -0.14 33.1 38.3 38.8 38.9 22 .7 57 822.6 2% 2 I0
89.7 ES. 88.4 89.0 88.0 938. 7. 939. 90.2 89. 8 89. 3 88.5 90.2 89.321 -0.15 38.9 368. 38.7 38.8 22 .71 2'-' . 2 02
898..8. 89. 88.1 89.2 89.4 87.2 89.6 91.6 '30.4390.0 89.3 88.5 90.3 89.38 -0.15 39.0 38 .8 38.7 38.8 2 2,.74- i 0
89.8 890.9 88.5 89 .1 88.1 89.2 89.4 87.2~ 89.5 91.7 I 9.3 90.0 89. 3 88. 5 930.4 89 .39I -0. I15 38.9 3 8. 8 '38.6 38.8I' 22.77 2' .u 49 2
8978.' 8589.1 88.1 89.2I 89.4 87.2 89.64917 0. 8998.8.5938.8-.53.9 883.73. 2.6 u'
9978.L8. 918. 8928. 728. 1.6 90.2 389.9 8 9.3 88.5 90.3 89.37I -0. 16 38".9 3. 38.8 38.8 22.54 121. '7 U
89.7 89.8 88.4 89.0 88.0 89.3 89.3 87.2 83.3 91.5 0, 8.8 83.3 88.4 930.2 89.3 -01O903.83. 88 226 '4
89.,8 930.0 88.4 89.0 88.1 89.3I 89.4 87.2 89.3 91.5 '30. 189.8 89.3 838.5 90.2 89.33 -0.16 38. 3883. 38.8 27 9:
891.8 83.') 88.4j 893.0 88.0 89. 2 89.3 87.2 89.3 9)1.6 9. 0.2 89.98.3 88.4 '30.389.')S'3 -0.16 39.0 38.8 38.7838.9 22.64 6'' 0U
89 C 98. 9O M18. 94 72 959. 9.M9. E3885NT 93 -) 5"S 8, 86S. E17E6) ( 2
H. 9I 8j83 81S3 148.28. i7'0 481.- 9.38. 3.3 92 0153. J 1S.3 G-2?.Ji oZTested9 8. By. Dat1 Rev 9i5 87d By89D2te 7 02 I
AMPACITY TEST. JOB NUMBER 94-0357.E-7
SAMPLE NUMBER 94-0357-02
POSITION I POSITION 2 POSITION 3T20 T21 T22 T23 T24 T25 T33 T27 T32 T29 T30 T31
88.188. 188.088.088.088.088.188. 1
88.088.088.088.087.388.087.388.0
88.088.088. 188.188.088.0
98.087.987.387.'388.087.388.087.387.988.0
87.987.388.083.188,088.088,188. 188.188.088,088.188.183,I88.1r3,.188.188.188.188.1
87.387,g87.387.988. 087.9
89.2 84.2 87.5 85.5 86.4 90.1 84.2 85.43.3 84.1 87.5 85.4 86.4 30.2 84.3 85.989.2 84.3 87.6 85.5 86.3 30.2 84.3 85.589.2 84.3 87.5 85.5 86.5 90.2 84.3 86.383.3 84.3 87.5 85.5 86.5 90.2 84.2 85.4893.2 84.2 87.5 85.5 86.4 90.1 84.2 84.989.2 84.2 87.5 85.5 86.4 90.2 84.2 85.289.1 84.1 87.4 85.5 86.4 90.1 84.2 85.389.2 84.1 87.4 85.4 86.4 90.1 84.2 85.489.2 84.1 87.4 85.4 86.4 30.1 84.1 85.389.0 84.1 87.3 85.5 86.4 30.0 84.0 85.183.1 84.0 87.3 85.4 86.4 90.1 84.1 86.289.1 84.1 87.4 85.4 86.3 90.1 84.1 85.083.1 84.1 87.3 85.4 86.4 30.1 84.1 86.089.2 84.3 87.5 85.4 86.3 90.1 84.0 85.039.2 84.3 87.5 85.4 86.4 90.1 84.2 86.083.2 84.3 87.5 85.4 86.4 90.2 84.2 85.889.3 84.2 37.5 85.4 86.3 30.2 84.3 85.289.2 84.2 87.5 85.4 86.3 30.1 84.1 84.983.3 84.2 87.5 85.4 86.4 30.2 84.2 85.383.2 84.1 87.4 85.4 86.4 90.1 84.3 85.583.2 84.3 87.5 35.4 86.2 30.1 84.3 84.783.2 84.3 87.5 85.4 86.3 30.2 84.3 85.883.1 84.2 87.4 85.4 86.3 90.2 84.3 86.389.1 84.2 87.5 85.4 86.2 90.1 84.3 84.389.1 84.0 87.4 85.4 86.2 90.1 84.2 85.089.0 83.8 87.2 85.4 86.3 90.1 84.2 85.38130 83.3 87.3 85.3 86.2 30.1 84.2 84.3839.0 83.9 87.2 85.3 86.3 30.1 84.2 86.589.0 84.0 87.3 85.4 86.3 90.1 84.1 86.489.1 84.1 87.4 85.3 36.3 30.1 84.2 85.589.2 84.1 87.4 85.4 86.4 30.1 84.1 85.689.1 84.1 97.4 85.5 86.4 30.0 84.1 85.183.2 84.3 87.5 85.3 86.4 90.1 84.1 86.689.1 84.1 67.4 85.3 86.3 90.0 84.2 84.889.1 84.1 87.4 85.3 86.2 30.1 84.2 85.189.2 84.2 87.5 85.3 86.2 90.1 84.1 84.583.2 84.2 97.4 85.4 86.3 '30.1 84.2 86.189.2 84.3 87.5 85.3 86.2 30.1 84.2 84.88.3 984.4 87.6 85.3 86.2 30.1 84.3 84.489.3 84.4 87.6 85.3 86.3 30.1 84.3 84.389.3 84.4 87.7 85.4 86.2 30.2 84.2 85.983.3 84.4 87.6 85.4 86.3 30.1 84.2 86.389.3 84.4 87.7 85.3 86.2 30.0 84.1 84.589.3 84.5 87.7 85.3 86.3 90.0 84.0 84.683.3 84.4 87.6 85.4 86.4 30.0 83.3 85.783.3 84.2 87.5 85.4 86.3 30.0 84.0 85.883.3 84.3 87.6 85.3 86.2 90.1 84.1 85.583.3 84.3 87.6 85.3 86.2 30.1 84.1 85.183.2 84.1 87.5 85.3 86.1 90.0 84.0 84.689.2 84.1 87.5 85.3 86.2 89.9 84.0 84.683.2 84.0 87.3 85.3 86.3 90.0 34.0 85.689.1 84.0 87.3 85.4 86.3 30.0 83.9 85.i83.1 84.1 87.4 85.3 86.2 8 43.9 4,0 85.589.1 84.2 87.5 85.3 86.3 '0.0 84.0 85.589.1 84.1 87.4 85.3 86.3 30.1 84.1 86.093.1 94.2 87.4 85.3 86.3 30.1 84.2 85.789.1 84.1 87.4 85.3 86.2 30.0 84.1 84.698.1 84.2 87.4 85.4 86.3 30.0 84.1 85.389.1 84.2 87.4 85.3 86.3 30.0 84.2 85.4
32.192.192.32.192.192. 192.0
92.092.091.391.992.0'~ 1. .92. 0
92.092.1392.
92.032. 132.1
92.192.192. 132.092.192.032.032.1
92.192.0
92.032.032.0
92.031. 992. 0312. 0'32. 0
32.032.032.032.092.092. 192.192.032.1
32.0
92. 1
'32.1
32.1
9 2. 132.0
92.132.0
92.0
90.083.889.9383.783.789.889.783.789.683.689.783.689.689.789.789.8
89.9
89.990. 0
'30.0
89.37
89. 889.87
89. 8
89. 8
89.3813.3)
B9.~
30.0
83.983.3
83.3
90.090. 030.030. 0
33.8
89. 9'30. 0
83.3
89.8
'0.30.089.989.289.8
89.3
83.3
88.288.088. 188.087.987.387.988.087.987.387.987.387.988.088.088.188.188.288.88.188.388.288.182.088.187.988.088.088.188.188.188.188.288.188.88.088.188.188.088.188.088.088.188.288.288.288.288.188.188.288.188.288.288.288.188.188.038.088.288.2
POSITION AVETl T2 T3
87.3 86.6 88.9 87.5887.3 86.6 88.9 87.5987.3 86.6 88.9 87.5887.3 86.6 89.0 87.6387.3 86.6 88.8 87.5587.2 86.6 88.7 87.4887.3 86.6 88.7 87.5187.2 86.6 88.3 87.5387.2 86.5 88.7 87.4787.2 86.5 88,7 87.4687.1 86.5 88.7 87.4197.1 86.5 88.3 87.5087.1 86.5 88.6 87.4187.1 86.5 88.9 87.5187.2 86.4 88.7 87.4587.3 86.5 89.0 87.5887.3 86.6 88.9 87.5887.3 86.6 88.8 87.5587.2 86.5 88.8 87.4887.3 86.6 88.8 87.5687.2 86.6 88.9 87.5787.3 86.5 88.8 87.5087.3 86.6 88.3 87.5887.2 36.6 89.1 87.5887.2 86.5 88.8 87.4787.1 86.5 88.7 87.4287.0 86.5 88.9 87.4787.0 86.4 88.7 87.3987.0 86.5 89.1 87.5387.1 86.5 83.1 87.5387.1 86.5 88.9 87.4387.2 86.5 88.9 37.5387.2 86.5 88.8 87.4987.2 86.5 89.1 87.6187.1 86.4 88.7 87.4187.1 86.4 88.7 87.4287.2 86.4 98.6 87.4387.2 86.5 83.0 87.5787.3 86.4 88.7 87.4687.3 86.5 88.6 87.4787.3 86.5 88.7 87.5287.4 96.5 88.3 87.6187.3 86.5 83.1 87.6487.3 86.4 88.7 87.4787.4 86.4 88.7 87.4387.3 86.4 83.0 87.5887.3 86.4 89.0 97.5787.3 86.4 88.9 87.5487.3 86.4 88.8 87.5287.2 86.3 88.7 87.4287.2 86.3 88.7 87.4287.2 86.4 83.3 87.4887.1 86.4 88.3 87.4687.2 86.3 88.3 87.4387.2 86.4 88.9 87.4387.1 86.4 83.0 87.5387.2 86.5 88.3 87.5087.1 86.4 88.7 87.3387.2 86.4 28.8 87.4387.2 8b.4 88.9 87.49
DATA FILE C:\940357\4C1O6BAR.EOI
AMBIENT TEMPERATUREAV6Twave SLOPE Taal Tam2 Tas3 Taav
0.000.020.040.060.060.060.070.080.030.090.070.080.080.080.080.090.100.100.100.100.030.090.090.100.090.080.080.070.080.080.070.070.070.080.070.060.060.070.060.050.050.050.050.040.040.040.040.030.020.02
-0. 00-0. 01-0. 02-0. 03-0. 03-O.03-0.04-0.04-0.04-0).05
40.340.540.340.340.340.440.440.540.540.540.440.340.440.640.540.440.540.540.440.540.440.440.540.440.440.540.540.540.540.540.440.440.440.540.440.540.540.540.440.540.540.440.340.340.440.440.440.440.340.440.540.440.440.440.340.440.540.440.540.3
40.2 40.4 40.340.1 40.5 40.440.2 40.5 40.340.2 40.5 40.340.2 40.6 40.440.3 40.5 40.440.3 40.5 40.440.2 40.5 40.440.3 40.4 40.440.3 40.4 40.440.4 40.5 40.440.3 40.4 40.340.3 40.5 40.440.3 40.5 40.540.3 40.6 40.540.2 40.5 40.440.2 40.5 40.440.3 40.5 40.440.3 40.5 40.440.3 40.5 40.440.2 40.5 40.440.2 40.5 40.440.2 40.6 40.440.2 40.6 40.440.2 40.6 40.440.2 40.5 40.440.2 40.4 40.440.2 40.3 40.340.3 40.4 40.440.4 40.6 40.540.3 40.5 40.440.2 40.5 40.440.3 40.5 40.440.2 40.6 40.440.3 40.5 40.440.2 40.6 40.440.2 40.5 40.440.2 40.5 40.440.2 40.6 40.440.1 40.5 40.440.2 40.5 40.440.3 40.5 40.440.3 40.4 40.340.2 40.4 40.340.3 40.6 40.440.4 40.5 40.440.3 40.5 40.440.3 40.5 40.440.2 40.6 40.440.2 40.6 40.440.3 40.5 40.440.2 40.6 40.440.2 40.5 40.440.1 40.5 40.340.2 40.4 40.340.2 40.4 40.340.2 40.5 40.440.2 40.5 40.440.2 40.5 40.440.1 40.5 40.3
COMNENTS
Date t.-S A3 Revieued Byl-ldz/ . ' P Date i2 -IY-.'3
AMPS
12-05-1993
II TIMEIt
39.893.933.s8o39.3233.7533. 7539.7233.6733.6833.7039.6633.7039.7133.7639.9039.8633.9039.8039.8433.8033.8133.7539.7633.7239.8033.8239.7539. 8239.7439,8139.80393.8333.733l3.6333.5733.82
39. 79393.8439.89393.84
33. 7039. 9039.7839.7739.7439.71393.7139.8133.873s.8239.7533.7439.30335539. 313.753i. 77
39.9740.0139.8739.3339.8339.8739.8139.8039.81
39.8333.319s.a
40. 0639. 9739. 9933.9133.37
319. 9133.9239.86
33.8139.9339.333.8639.96
33.37
391 9839.9339.34
39.8339.7339. 9639.9833.92319. 92
34.023d.3333.91
40.0733.35
33.3633.8233.8740.0240. 0333.3739.3239.8639.9033.6833.963.93139.83
06:2406:2506:2606:2706:2806:2906:3006:3 106:3206:3306:3406:3506:3606:3706:3806:3306:4006: 4106:4206:4306:4406:4506:4606:4706:4806:4906:5006:5106:5206:5306:5406:5506:5606:5706:5806:5907:0007:0107:0207:0307:0407:0507:0607:0707:0807:0907:1007:1107:1207:1307:1407: 1507:1607: 1707:1807:1907:2007:2107:207:23
Tested ,3y lvd! o +
E-8
AMPACITY TEST.
POSITION I
JOB NUMBER 94-0357.
POSITION 2
T20 T21 T22 T23 T24 T25 T33 T27 T32
SAMPLE NUMBER 94-0357-02 DATA FILE C:\940357\4C1OGBAR.EO1
POSITION 3 POSITION AVE AVGT29 T30 T31 TI T2 T3 Twave
AMBIENT TEMPERATURESLOPE Tail Tam2 Taa3 Taav
87.9 89.1 84. 3 87.5 85.3 86.2 90.1 84.1 84.8 92.0 90.0 88.1 87.2 86.4 88.7 87.4587.9 89 2 84.2 87.4 85. 2 86.2 90.0 V4.2 86.4 92.0 89. 8 88.1 87.2 86.4 89.1 87.5587. 9 89.1 84.2 87.4 85.2 86.1 89.9 84.2 86.2 91 .9 89.8 88.0 87.2 86.3 89.0 87.4987.9 89.0 84.2 87.4 85.2 86.0 89.9 84.1 84.7 92.0 83.9 88.0 87.1 86.3 88.7 87.3687.9 89.2 84.2 87.5 85.1 86.0 90.0 84.1 85.7 92.0 89.8 88.0 87.2 86.3 88.9 87.4688.0 89.1 84.3 87.5 85.3 86.2 90.0 84.0 84.7 92.0 89.9 88.1 87,2 86.4 88.7 87.4388.0 89.3 84.3 87.5 85.3 86.3 90.0 84.1 86.3 92.0 89.7 88.0 87.3 86.4 89.0 87,5787.9 89.2 84.4 87.5 85.3 86.3 90.0 84.1 86.5 31.9 89.7 88.0 87.3 86.4 89.0 87.5787.9 89.2 B4.3 87.6 85.4 86.3 90.1 84.1 84.9 92.0 89.9 88.0 87.3 86.5 88.7 87.4788.0 89.2 84.3 87.5 85.4 86.4 90.0 84.1 85.0 92.0 89.8 88.0 87.3 86.5 88.7 87.4788.0 89.2 84.3 87.6 85.4 86.2 90.0 84.0 85,1 92.0 89.9 88.0 87.3 86.4 88.8 87.4788.0 89.3 84.2 87.5 85.3 86.3 90.1 84.0 85.5 92.0 89.8 88.0 87.3 86.4 88.8 87.5088.0 89.2 84.2 87.5 85.4 86.4 90.0 84.0 86.0 92.0 89.8 88.1 87.2 86.4 89.0 B7.5588.0 89.2 84.3 87.5 85.3 86.3 90.1 84,1 86.3 92.0 89.7 88.0 87.3 86.4 89.0 87.5788.0 89.2 84.2 87.5 85.5 86.3 90.0 84.1 94.7 92.0 89.9 88.1 87.2 86.5 88.7 87.4688.0 89.2 84.2 87.4 85.3 86.3 90.0 84.2 86.4 92.0 89.8 88.0 87.2 86.4 89.1 87.5787.9 89.1 84.3 87.6 85.3 86.2 90.0 84.1 84.7 92.0 89.9 88.0 87.2 86.4 88.7 87.4388.0 89.2 84.3 87.6 B8.3 86.2 90.1 84.0 84.9 92.0 89.8 87.9 87.3 86.4 88.7 87.4488.0 89.3 84.4 87.7 85.3 86.2 90.1 84.0 84.9 92.0 89.9 87.9 87.3 86.4 88.7 87.4788.1 89.3 84.4 87.6 85.4 86.3 90.0 84.0 84.6 92.0 89.9 88.0 87.3 86.4 88.6 87.4788.0 89.2 84.4 87.6 85.3 86.2 90.0 84.0 84.7 92.0 89.9 88.0 87.3 86.4 88.7 87.4488.1 89.4 84.4 87.6 85.4 86.5 90.1 84.0 86.5 92.0 89.8 87.9 87.4 86.5 89.1 87.6488.1 89.4 84.4 87.6 85.3 86.4 30.1 84.1 85.2 92.0 89.6 87.7 87.4 86.5 8s86 87.4988.1 89.4 84.2 87.5 85.3 86.3 90.1 84.2 85.3 91. 83.5 87.7 87.3 86.5 88.6 87.4688.2 89.3 84.3 87.5 85.4 86.3 90.1 84.0 85.1 91.9 89.7 87.9 87.3 86.4 88.7 87.4788.2 89.4 84.4 87.6 85.2 86.2 90.1 84.2 86.4 91.9 89.5 87.8 87.4 86.4 88.9 87.5788.1 89.3 84.4 87.6 85.3 86.1 90.0 84.1 84.7 91.9 89.8 88.0 87.3 86.4 88.6 87.4488.1 89.4 84.4 87,6 25,3 86.2 90.1 84.1 84.8 92.0 89.7 88.0 87.4 86.4 88.6 87.4788.2 89.3 84.4 87.6 85.3 86.3 90.0 84.1 86.2 91.9 89.8 88.0 87,4 86.4 89.0 87.5988.1 89.3 84.4 87.7 85.3 86.2 90.0 84,2 84.6 32.0 89.8 87.9 87.4 86.4 88.6 87.4688.1 89.3 84.3 87.6 85.3 86.1 0. 0 84.2 84.8 91.9 89.8 88.0 87.3 86.4 88.6 87.45188.1 89.3 84.4 87.6 85.3 86.2 90.1 84.2 85.3 91.9 89.7 87.9 87.3 86.4 88.7 87.5088.0 89.3 84.4 87.5 85.3 86.2 90.0 84.2 85.7 91.9 89.7 88.0 87.3 86.4 88.8 87.5288.0 89.3 84.3 87.5 85.3 86.2 90.1 84.3 86.5 91.9 89.6 87.8 87.3 86.5 88.9 87.5788.0 89.3 84.3 87.6 85.3 86.2 90.1 84.4 85.6 92.0 89.6 87.8 87.3 86.5 88.8 87.5288.0 89.2 84.2 87.5 25.4 86.3 90.1 84.3 86.7 92.0 83.7 88.1 87.2 86.5 89.1 87.6388.0 89.2 84.3 87.5 85.4 86.3 90.0 84.2 85.8 92.0 89.8 88.1 87.3 86.5 88.9 87.5588.0 89.3 84.4 87.6 85.3 86.4 30.0 84.2 85.9 92.0 89,7 88.0 87.3 86.5 88.9 87.5788.1 89,3 84.5 87.6 85.4 86.3 90.1 84.2 84.8 92.0 89.9 88.1 87.4 86.5 88.7 87.5388.1 89.4 84.5 87.7 85.4 86.4 90.1 84.2 86.6 92.0 89.9 88.2 87.4 86.5 89.2 87.7188.1 89.3 84.4 87.7 85.5 86.4 90.2 84.1 85.3 92.1 89. 9 88.0 87.4 86.6 88.8 87.5888.1 89.3 84.5 87,7 85.4 86.3 90.2 84.2 85.0 92.1 930.0 88.1 87.4 86.5 88.8 87.5888.1 89.4 84.6 87.7 85.4 86.4 90.1 84.3 85.4 92.1 89.9 88.3 87.4 86.6 88.9 87.6488.0 89.4 84.6 87.7 85.4 86.3 90.1 84.3 85.6 92.0 89.9 88.2 87.4 86.5 88,9 87.6388.0 89.3 84.6 87.7 85.4 86.2 90.1 84.3 84.7 92.0 90.0 88.1 87.4 86.5 88.7 87.5388.1 89.4 84.6 87.6 85.3 86.2 90.1 84.3 86.1 92.0 89.9 88.1 87.4 86.5 89.0 87.6488.1 89.3 84.3 87.6 85.3 86.2 90.1 84.1 85.5 92.0 89.9 88.2 87.3 86.4 88.9 87.5588.0 83.3 84.4 37,6 85.3 86.2 90.1 84.2 85.2 92.0 89.9 88.2 87.3 86.4 88.8 87.5388.0 89.2 84.4 87.6 85.4 86.4 90.1 84.1 86.3 92.0 89.9 88.2 87.3 96.5 89.1 87.6388.0 89.2 84.4 87.6 85.5 86.3 90.0 84.1 84.9 92.0 90.1 88.3 87.3 86.5 88.8 87.5388.0 99.3 94.5 87.7 85.4 86.4 30.0 84.1 84.5 92.0 90.0 88.1 87.4 86.5 88.7 97.5088.0 89.3 84.5 87.7 85.4 86.4 90,0 84.0 84.8 91.3 89.9 88.1 87.4 86.4 88.7 87.5088.1 839.3 84.5 87.6 85.4 86.3 90.0 84.1 85.9 91.9 89.8 88.1 87.4 86.4 88.9 87.5888.1 89.3 84.5 87.7 85.3 86.3 90.0 84.0 84.6 92.0 89.9 88.1 87.4 86.4 88.7 87.4888.1 89.3 84.3 87.5 85.3 86.2 90.0 84.0 86.2 91.9 89.7 88.0 87.3 86.4 88.9 87.5488.1 89.3 84.5 87.7 85.2 86.1 89.3 84.1 84.7 9"2.0 89.9 88.0 87.4 86.3 88.7 87.4688.0 89.3 84.5 87.7 85.2 86.2 90.0 84.1 84.3 52.0 89.8 87.9 87.4 86.4 88.7 97.4788.1 89.4 84.4 87,6 85.3 86,2 90.0 84.1 85.1 92.0 89.7 87.9 87.4 86.4 88.7 87.4888.1 89.3 84.4 87.7 85.3 86.2 90.0 84.1 84.6 92.0 89.7 87.9 87.4 86.4 88.6 87.4488.2 89.4 84.4 87,6 85.3 86.3 30.0 84,2 25.4 92.0 8,.7 88.0 87.4 86.4 88.8 87.54
-0.05 40.4 40.3-0.03 40.4 40.2-0.03 40.4 40.2-0.03 40.3 40.1-0.03 40.2 40.1-0.03 40.3 40.1-0.03 40.3 40.2-0.02 40.3 40.2-0.02 40.4 40.2-0.03 40.4 40.3-0.04 40.4 40.2-0.04 40.4 40.2-0.04 40.4 40.3-0.03 40.4 40.2-0.04 40.4 40.2-0.03 40.4 40.3-0.03 40.4 40.3-0.03 40.3 40.3-0.03 40.4 40.2-0.03 40.4 40.2-0.03 40.4 40.1-0.01 40.3 40.2-0.01 40.4 40.1-0.00 40.5 40.1-0.00 40.2 40.2-0.00 40,3 40.2-0.01 40.4 40.3-0.02 40.5 40.3-0.01 40.3 40.2-0.01 40.4 40.2-0.02 40.4 40.2-0.01 40.4 40,2-0.01 40.4 40.20.01 40.4 40.20.00 40.5 40.20.01 40.4 40.30.00 40.3 40.20.02 40.4 40.30.01 40.4 40.10.03 40.5 40.30.04 40.4 40.20.06 40.5 40.20.08 40.2 40.20.09 40.4 40.20.03 40.4 40.20.11 40.5 40.30.12 40.4 40.30.13 40.4 40.20.14 40.4 40.20.13 40.3 40.40.12 40.4 40.30.12 40.4 40.30.12 40.4 40.20.11 40.3 40.20.11 40.3 40.20.10 40.4 40.20.10 40.3 40.20.08 40.2 40.10.07 40.1 40.20.07 40.3 40.1
COMMENTS
Tested By 0 Date F2-s-¶ Reviewed By Date 12/I-ifr
12-05-1993
I' TIMEAMPS
It
40.5 40.440.5 40.440.5 40.440.5 40.340.4 40.240.4 40.340.4 40.340.4 40.340.4 40.340.5 40.440.4 40.340.5 40.440.5 40.440.5 40.440.5 40.440.6 40.440.5 40.440.4 40.340.4 40.340.5 40.440.5 40.340.5 40.340.5 40.340.5 40.440.5 40.340.5 40.340.4 40.440.5 40.440,5 40.340.5 40.440.5 40.440.5 40.440.5 40.440.5 40.440.5 40.440.5 40.440.5 40.340.5 40.440.5 40.340.5 40.440.5 40.440. b 40.440.4 40.340.5 40.440.6 40.440.5 40.440.5 40.440.4 40.340.3 40.340.5 40.440.5 40,440.4 40.440.4 40.340.5 40.340.4 40.340.5 40.440.5 40.340.5 40.340.4 40.240.4 40.3
39.7539.7539.7439.7339.9339. 8239. 9039.8439.8339.7639.8239. 7939.8239.7539'.8039.7639.8039.8839. 9039.8639.8139.8739.8239.7539.7433.7739.7639.8039.7839.6939.7633.7839.l8
39.89
33.,8239.9239. 9239.8339.8333. 3339.7239.6839.7539. 7939.7339.803'9.7439. 8039.6539.8139.7939.7633.8139.7339. 7039. 7939.8033.93
39.8739.3039. 9239.8940. 02,to. 0d2
40.0233.9639.9339.9239.96
33.9839.3639. 9539.9330.9639.9840.0040.0139. 9539.9739.9239.8639.8339.8739. 91319.9439.9239.8339.9139'.9040. 0639^.9340.0139.9940.0339.9840.0240,0639.9139.9439.8039.8039.87
39.8533.30)39. 8339.9633.81
39.95
39.89
3:91. ,34
39.9139.8333.8339.94
07:2407:2507:2607:2707:2807:2907:3007:3107:3207:3307:3407:3507:3607:3707:3807:3907:4007:4107:4207:4307:4407:4507:4607:4707:480 7:4307:5007:5107:5207:5307:5407:5507:5607:5707:5807:5908:0008:0108:0208:0308:0408:0508:0608:0708:0808:0908:1008:1108:1208:1308:1408:1508:1608:1708:1808: 19(08: 0o
08:2108:2208:23
E-9
AMPACITY TEST.
POSITION 1'20 T21 T22 T23
88.1 89.3 84.388.1 89.3 84,328.2 89.3 84.388.1 89.2 84.288.2 89.3 84.388.2 89.3 84.388." 89.3 84.488.1 89.3 84.588.1 89.3 84.488.2 89.2 84.288.1 89.3 84.388.1 89.2 84.288.1 89.2 84.288.1 89.2 84.288.0 89.3 84.488.1 89.3 84.488.1 89.3 84.388.1 89.3 84.288.1 89.3 84.288.0 89.3 84.288.0 89.3 84.288.1 89.4 84.488.1 89.3 84.488.1 89.3 84.488.2 89.3" 84.588.1 89.3 84.588.2 89.31 84.388.21 89.3 84.488.2' 89.3 84.48 .1 83.4 84.3881 93 8433 89.4834.89.~ 84.;89., 84.3
88.0 89.2 84.4988,189.3 84.388.0 89.2 84.288.0 89.1 84.388.0 89.1 84.187.9 89.1 84.288.0 89.1 84.287.9 89.1 84.387.9 89.2 84.387.9 83.2 84.288.0 89.2 84.388.0 89.1I 84.2'88.0 89.2 84.186.0 89.2 84.288.0 89.1 84.188.0 89.1 84.288.0 89.3' 84.488.0 '39. 84.388.0 09.2 84.187.9 69.2 84.388.0 89.2) 84.238.0 89.2I 84.288.0 8T9.2 84.288.0 89.2 84.288.1 89.1 84.188.0 39.2 84.0
87.587, 687. 687.687.587. 687.6587.787. 687.587.587. 587. 687. 587. 687. 687. 587.587. 587. 587.587. 687. 687. 687. 787. 887. 687. 687. 687.687. 687. 687. 687. 687. 787.587. 487. 587. 487. 487, 487. 487. 487. 487. 487. 5
87.4587. 487.5487.5i87.6587.4687.6487.5687. 5
87. 487.5i87. 487. 4
JOB NUMBER 94-0357.
POSITION 2T24 T25 T33 T27
85.3'
85.2)85.385.3485. 485. 485. 485. 485. 485. 485. 485. 485. 485. 485.4385.3285.2385. 385. 385. 385.3485. 485.485. 585. 585. 585.585.585.585.585.5
85. 485. 385.31
85.3i85. 385.385.3)85.2385. 285.385. 385.4385.3485. 385.4385. 485.3485. 385.485. 485.3485.4385.5485.5r85.585.4
86.2 90.1 84.386.2 90.1 84.186.1 90.1 84.386.1 90.1 84.286.2 90.0 84.386.2 90.1 84.386.3 90.1 84.286.2 90.1 84.386.2 90.1 84.286.3 90.0 84.186.3 90.0 84.2,86.3 90.0 84.186.2 90.1 84.186.4 90.1 84.086.3 90.1 84.186.3 90.1 84.186.2 90.0 84.186.2 90.0 84.186.2 90.0 84,186.3 90.0 84.186.4 90.1 84.186.3 90.1 84.286.3 90.1 84.286.4 90.1 83.986.5 90.0 84.086.5 90.1 84.186.5 90.1 84.186.4 930.1 84.286.4 90.1 84.286.5 90.2.84.086.4 90.2 84.086.6 90.2 84.186.4 90.3 84.186.4 90.1 84.186.3 90.2 84.186.3 90.1 84.186.2 90.0 84.186.1 930.0 84.186.2 90.0 84.086.2 89.9 83.986.2 90.0 83.9860.2 89.9 84.086.2 90.0 84.186.2 90.0 84.186.3 90.0 84.186.2? 90.0 84.186.2 90.0 84.286.3 90.1 84.386.9 90.1 84.286.2 90.1 84.286.3 90.0 84.286.2) 90.1 84.186.5i 90.1 84.086.3 90.2 84.18 6.2. 90.2 84.286.3 930. 1 84.286.4 90.1 84.486.3 930.2 84.586.4 90.1 84.286.3 90.1 84.2
SAMPLE NUMBER 94-0357-02 DATA FILE C:\940357\4CI0GBAR.EO1
POSITION 3 POSITION AVE AVGT32 T29 T30 _T31 TI T2 T3 Twave
86. 585. 785. 985. 185. 284. 685. 885. 484. 785.686.284. 685. 186. 485. 685. 485.39
86.386. 085. 886.086.384. 685. 384.985.284. 886. 086. 085. 385i.485. 586.3
86. 3
85.85.10
85.386. 085.985. 586.085.5r85. 084. 486. 6
85.6
84. 686.485. 485.385. 785.285. 486. 184. 7
91.992. 092. 092. 092. 0492.0
92. 092.092. 092. 092. 092.092. 192. 092. 0
92. 092. 092.0
92.0192. 092. 192. 192. 0
92. 192.0
92.92.02
92:0.Z. 0
92.
92.2092.1092. 192). 192. 0932. 0932. 092.0932.0o92.092.019;2.01
92.192.01
89.689.689. 789.889. 889. 989. 989. 889.989.889. 890. 089.989. 989. 889. 789. 789. 789. 789. 789. 789.8S89.890.090. 090. 0893.989. 989. 989.9390. 090. 190.1190. 190. 189. 990. 083. 989. 890. 089. 989.889. 689. 789. 789. 989. 989. 789.8989. 889.889. 989.8389.889. 989. 989. 889. 789. 989. 9
87. 987.887. 988.0
88. 188. 188. 088.188.1
88. 288.2088.088. 188. 0
87. 988. 0
88. 088. 088. 088. 0
88.288.21
88. 188.188.2188.1288.288, 4
88.5388. 388.3488.4)88.288.088.188. 1
87.987. 988. 088.1I88. 187.988.0u88. 088. 088.188.188.088.1I88. 188. 088. 088. 288.1I
87.387.387.387.387.387.387. 487. 487.387.387.387.387. 387. 387.387. 387.387.387. 387. 387. 387. 487. 387. 387. 487. 487.387. 487. 487.3287. 387. 487. 387.387. 387.387.287. 287.2)87.287.287.287.287.2
87.287.2)87.287,2
87.2
87. 287.3)87.387.287.3287.28.7.28 7.2
86. 586. 486. 486. 486. 586. 586. 586. 586. 586. 486. 586. 486. 486. 586. 586. 4
86. 486. 486. 486. 586. 586.5
86. 586.5686. 686.686. 686. 686.6586.5686. 686.686.586.5486. 486. 486. 486.486.386.386.3486. 486. 486. 486. 486.4586. 586.5i86.5486. 486.486.586. 586. 586.5b
86. 686.5
89.0
88. 788. 888. 788. 988. 888.788. 989. 088. 788. 889. 188. 888. 8
89. 088. 988. 989.089. 188. 788. 988.8
88. 789.089.188.9
89.089. 189.389.0289.20
88.888. 788. 889. 088. 988. 888.9388. 888.8988. 689. 188. 888. 788.8888. 789. 188.888.8938. 988.8988.389.188. 7
87. 5887. 5087.5687. 4787. 5387.5087.6187.5787. 5087. 5387. 6087.4787. 5087. 6187. 5587.5387. 5287.5487. 5687. 5387. 5387. 6287. 6387.51I87. 6187. 5887. 5787. 5487. 6587. 6587. 5987. 6787.6487. 6987. 5987.6487. 5387. 4787. 4287. 4487. 518 7.4787. 4487. 4987. 4887. 4687. 4187. 5887. 4987. 4687. 5287. 46,87. 5887. 5387. 5287. 5687. 53
375587. 6087. 46
AMBIENT TEMPERATURESLOPE Taal Ta&2 Tas3 Taav
0.07 40.3 40.10.07 40.3 40.20.07 40.3 40.20.05 40.4 40.10.04 40.4 40.20.03 40.4 40.10.04 40.3 40.20.05 40.3 40.10.04 40.4 40.10.04 40.4 40.10.04 40.4 40.20.03 40.4 40.10.03 40.4 40.10.04 40.3 40.10.04 40.3 40.10.04 40.3 40.10.03 40.3) 40.10.02 40.3 40.10.02 40.4 40.10.01 40.4 40.2-0.00 40.3 40.10.024 40.3 40.10.02 40.3 40.10.01 40.2 40.10.01 40.4 40.10.02 40.1 40.10.01 40.3 40.10.00 40.3 40.20.02 40.4 40.10.02 40.3 40.20.01 40.3 40.2;0.02 40.3 40.10.02 40.2 40.20.04 40.2) 40.30.03 40.3 40.10.05 40.4 40.10.04 40.3 40.10.04 40.4 40.10.02 40.4 40.30.02) 40.4 40.20.02 40.4'40.20.02 40.4 40.20.02 40.3 40.10.02 40.4 40.20.01 40.4 40.20.01 40.4 40.20.00 40.3 40.10.00 40.4 40.20.01 40.4 40.10.00 40.4 40.2
-0.,00 40.4 40.31-0.02 40.4 40.1I-0.01 40.4 40.2-0.01 40.4 40.2-0.01 40.4_.40.21-0.02 40.3 40.1-0.03 40.3 40;.1-0.03 40.4 40.1-0.04 40.3 40.2-0.04 40.4 40.1
40. 340. 540. 440.540. 540. 540. 340. 540. 340. 540. 340. 540. 440. 440.240. 540. 540. 340. 440. 440.540. 440. 440. 440. 440. 440.540.3)40.5J40. 440. 340.2)40.2)40. 440. 440. 540.540. 540. 440.540.5j40. 540.5.40.,440. 540.5r40. 440. 44 0.4"40, 440. 440.6'40. 540. 440.5'40. 540. 440. 440. 540. 4
40. 240.340. 340. 340. 440. 340. 340. 340. 340.340. 340. 340.340.3)40.2)40. 340. 340. 240. 340.340. 340.340. 340.240. 340. 240.3~40. 340.340.3)40. 340.240.240. 340. 340.340. 340. 340. 440. 440. 440. 440.340.340. 440. 440.340. 340.340.340. 440. 440. 440.340. 440.340. 340.,340. 340. 3
COMMENTS
II f'?2 - q' -I
12-05-1993
1'1 TIMEAMPS
I t
39. 8339.8139. 9339. 7739. 9339.8839.90339.8039. 8539,7239. 7039.8339. 78319.7639.7739.8039. 7639. 8139. 9239.9739. 9340.0239. 9039. 7639. 92
39.89339.903983.5
40. 0740.1I339.891393.7339. 7339.6839. 6639. 68309. 7439. 73319.7039. 7039. 7339. 7939.7739. 8439. 7539.9339. 8839.9239. 78393.8439. 93439. 8633.82359,79319. 86
3982339.80
40. 013 9 .8740.08319.9839. 9739.8939. 9239839. 8239.9'739. 87319.8 33981
39. 8339. 8839.9140. 0440. 1140. 0140. 0939.9739.8240. 0439.9639. 91
39. 8040. 1140. 14'39 ,7 9
393.7739'.7839. 78
39.89439.910
39. 8539.9'33991
39.89640.0339.9640. 0239.93;3.5
39.940.06139. 9339. 9039.8B6
39. 932
39.893
08:2408:2)508: 2608: 2708:2808:21908: 3008:3108:3'208:3308: 3408: 3508:3'608:3708:32808: 3908: 4008: 4108:420 8 :43108: 4408:4508: 4608: 4708: 4808:4 908:5008: 5108: 5208: 5308:5408: 5508: 5608: 5708: 5808: 5909:0009:0109:0209: 0309: 0409:0509:0609: 0709:0809:0909: 1009:11t09:1209: 1309: 1409:1I5091:1 609: 1709:18s09: 1909:210
09:209:224
AMPACITY TEST. JOB NUMBER 94-0357.E-10
SAMPLE NUMBER 34-0357-02 -DATA FILE c:\940357\4c1093m.001
POSITION 1 POSITION 2 POSITION 3 , POSITION AVE AVG AMBIENT TEMPERATURET20 T21 T22 T23 T24 T25 T33 T27 T32 T59 T30 T31 TI T2 T3 Twave SLOPE Taal Taa2 Tam3 Taav
99.9 9.289 89.0 28.9 99.9Q 90.0 9 09S7 .791.690. 0 S39 ' 595- :. 4 59. 7 89.2 489.8 '30.5 889 3-3.1 89.0 29.3- '30.08508.9.6003.5953.5973.2
99.93 90.5I 88.9 89. 0 88.9 39.9 90 .0 25. 0 87. 7 91.6, 90.0 89Q. 6 39S.6 538.4 89.7j 89.23.90533.9 39.0 33.9 39.3 90~O.0C- 35. 0 87. 7 931.6 9 0.0 963. 343. 33
39.39 90.5 38.9- 89. 0 38.91 89. 9008.9 87. 7 91. 6 90. 0 89 .5 29.6 88. 4 89.7 89g.23.305 339 . 3. 39. 90.0 34.98. 169. 953. 342. 92
39.3 90.5 3;8.93 89.0 88.9; 99.8 90. 0 84.9 37. 6 91. 6 930.01 89'.5 293. 88la.4 63. 7 89.,21I29.3 905 88.9 89. 0 82 .939. 8 90.0 94.9 87.6 916 90. 0 39.5 09.6: 35.4 59.7 8 9.21
3?. 7 90.5I 33. 9 39. 0 33.9 39. 9 90. 0 34.9 37. 6 91. 6 90. 0 39.5 89.5 .33.4 39,7 39. 208.9048.3908.8989.8.98.91690.03. 89.5 848. 91
39.7 90.5 33. 9 895.0 38.9 39. 3 90. 0 34.9 37. 6 91.6E 90. 895 89.5 33,4 819.7 29.20i39. 7 90. 5 88.9 89.0 98. 893.8 90. 0 3 4.9 937. 6 91.6 9r 0. 0 3 9.,5 89.5 838.4 39. 39.2099. 7 910.4 88. 9 89. 0 83.9a 89,38 90. 0 54.9 37. 6 91. 6 90. 0 89. 5 89.5 33.4 39. 7 99.,1939.3790.4 88.9~ 39.0 88.3 89. 3 90. 0 34. 9 37. 6 91. 6 930.30 39.5 89.5 33. 4 89. 7 99.20O39. 7 9 0.4 88.8 39.0 33.9 39.83 901.0 84. 3387.8r 91. 6 390.9 29.5 39. 33. 89 .O7 39Q.18IC59, 7 90. 4 88.3 89.0 '88. 9 99. 99.9O 34.9 87.6 91.5 90. 39.5 3 9.5 8,4 89.7 39. 17897 30S. 4 8S9.389.3 3 8.8 29.7c 390.3 84.3 .37.6 '31.56 89 0. 3 89.5 89. 83. 39.8 39.14n
59. ~7 904 88.8 89. 0 38.9 89.8 90.0 - 34.9 87. 6 91.6 39.9 6 9.5 9.5 38.4 99.7 89,.1739. 7 90.54 38 .9 89. 1 33.9 '29.2 900 8 2 316 691 .z89 '30. 83;. 5 39.6 88.4 O 8C 9.7'' 8.24
39.3 730. 893. 9 89. 0 S3.6 39.9i5go 90 v 4~ di 57 31.-6 30.0 89.6 6 9. 5 23.4 89.7c 89. 7598 3.96. 59.0 59. 901 33 9. 015.58. 655. I9
999I 0.? 9.78. 89. .0 89.930 20771.7901.23. ~ 897 9. 313.5' 99.3 8989 9 .5 39.0 39. -n" ;,)0 290 00 40 ) 27'. ~ t. 6 v . 33S.7 835 5 65.5 8 9.8 79.''
9. 90 .1 8 9.0-30.I'03 0e 34 oi 91.5? 90. D2.7 5975.a 5. 98399.6 J 0 3 9. 3 0.090 8 r 31. 912.8 3.72.529'.7389.34
IoM400 l90 b1 ( 9 59 C 92 3
''ujiI .O''3'2'u;130u..J lS 87. 74l14n 2:. S' -3'4 43
'u'4'4 o.f1 9 0 . 9l'0'2"40)( SS oH -u' F '4- ¶ 7'2'' 2'q3,739,7 39,3'72,93. 9.7/ j~~ C5 , 37 99"3.575 H. .4 4 223
99,990.3 930 839. 1 3.4" 0 . '72~ .7'2~ 39.52 37 3, 9329.9 90.5 38.39.0 39.0 99990 "J 97f 2. 98539 92
9939. 891 89.08 813.9C 89.90 H 90 aC3. 39.6 '83. 89799259.'0. 93.9 39.0 38.9 8.9 90 .. 35 0 8 1.7 7' 109.8.38.4 89.7 92
9 2 2 d~' 0 I 39.3 90 0. 3.C 74 ' 0'16 003. 99.684 39.7 39 -2'-
:0'243i98Z90836390840½214189565848.75
'4 1 4'395 11,,O .39-733"':4S 41 ' '5. 3 .5 631 .4 2 9.7 59o C) o 53.3 53.0dA. d:. z 2(,1. lc 0S. d8 ' 4. A35 S'.:" 68.4 375
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C_. 6 0.4 28,30 59.9 9.3 53.0 84.98 57.6 1. 9 0.7 --' 3 ::.Z :6 P S9.; 329,7 3O.5 I 83.9 86.9 68. 53.2S 30. 45. 57.5 3Q1.5 4'' 3:: 272.3 2.'5I 32 w .1
:.: :U. 56.. 690 66.3 63.5 30.I St 5.7 7 31.5 3,. c:.: 6:.: - :6. ZQ~ , -n.&; 't .82339. 58.33 S 9 5. 8.~ '37.7'9 3.5 004.4n c4o./2
99.5 90.5 25.9. 59. 2? 09. 3o. 0.1 35. 0 57. 917 '3.' £:3 s:: b. :6.6 SSO 3.S81 .3 63. .38.3 33. >3.u 4.: c. 7,:9 0S ;-7 3 ,ESo , 7
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39.5 39o. 359.3 8 C
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39.5 3.5 39.8 3'3'3." 264 24. 3s
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12-22-!993
T. JOB NUMBER 94-0357.
POSITION 2T23 T24 T25 T33 T27 T32
S9.6 a0.5 a8.9 69.1 SS.'; i3;,oi.8 '30.5 83.9 3.1 S .3 3. o.o
39.6 90.5 89.0 89.1 69.0 63 O.063.6 90.5 693.0 69.1 8S.0 3 , 03039.6 90.5 88.9 89.1 89.0 8V-3 -,10
89.6 90.6 689. 69.2 69.fo 6' ,o89.3 9O.6 89.0 89.2 83 .o 3 d 9 90.18393.90, 838.9 69.1 89.0 8".9 '0.169.6 90.5 88.9 9?.Q 89.0 39.9S 0.139.6 90.5 89.0 '3.1 89. 93.9 '30.189.8 90.5 88.9 S9.! 89.0 99.9 089.8 90.5 88.9 89.0 89.0 89.9 '30.199.8 90.5 89.0 89.0 39.0 89.9 90.189. 9 0.5 98.93 89.0 63.0 89.9 90.19?.8 90.5 88.9 89.0 28.9 89.9 ?0.089.8 9o.5 88.9 89.0 88.99.9 90.093.8 90.5 88.9 83.0 88.9 89.9 90.09.8 90.5 88.9 89.2 88. 9 3. 90.089.3 90.5 83.9 69.1 S9.3 8 .3 90.08.3 8'30.5 e8.s 9g 89 .88.9 69.9 9.89.8 '3 0. 6 8. 89 .. 1 88.9 M S9.9 '30. '.0SS.9 90.5 9 8.9 89.1 88.9 89.9i 9.09.3 90.5 88.9 89.1 88.30 89.9 '3.0
89.9 90.5 88.9 8?.1 89.0 6; 3 o83.3 90.5 88.9 6?.1 33.3 3?.: ;30
D9.d 90.5 68.9 69.0 39.0 39.I 90.089.6 90.5 63.3 63. H3 3 3 33Q6M.9 90.5 9E.9 S9.1 S' .; r 069.830.5 8.3 93.0 3V3.d 'L, .i99.3 90.e5 63.9 69.0; ,a~ 66.; 30,
RS 50 3. 9 E.6389.1 86.' 8E.' 3 0?.?0'2 - a., 39.0 68." 3?" 'u.
2,.8 6 30. 68.9 369.0 '36-. 8.4 6' 0.;GU96 205 '-58 .S .S9. &3. . 1 .SH.0a3'4 49 - '.3 89.1 S3.3 3.4 2?' 30.,8?. 30g. 5z 8a.31 a. i -'S.3 °?i.5 9d.dO
3? 3~ 9U, 8.9 89.1 83."2 w? 3 30 039, 30.a ? 39.1 S6. " so 20 .0'2"2 .989.1 889 8'2 S
29.8 '3.5 88.9 a6. 88.9 6. 30.19s8 90.5 99. 39 s.0 98. 389.9 30.
89.8 30.5 88.3 33.0 s6.9 89. 9 30.08S.8 90.5 88.9 8?.0 98.963 8 '30.0983.3 90.5 28.9 89.: 88.3 89s.6 90.089.7 30.4 389E 8s.9 3. 89.3 90.089. ' 30.5 88.9 893. d 88.' '2 3 ?0 A.89.3 30.5 98,3 89.0 89.9 S9.3 '30.08.9 ' 90.5 88.3 89.0 88. i098.8 '30;:,
893. 3'3.5 88.3 69.s Q?.9 82.3 i .U-99.8 90.5 98.9 9.1 89.o 9'3.3 ?0.'C393 90.; 88.9 9.1 83.0 ,-S ; "O. !
99.3 90.6 ;89.09.1 89t 3.0 9' '20
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83 390.5 8E.8 S .3 V.1 0 .0, 6.3 30.i
E- 12.SAMPLE NUMBER 94-0357-02 DATA FILE c:\940357\4clOg3m.001
POSITION 3 'POSITION AVE AVG AMBIENT TEMPERATURET59 T30 T31 TI T2 T3 Twave SLOPE Tail Tam2 Tan3 Taav
65.0 S7.7 '31.7 90.1 39.6 89s.6 8se3.5,' 6969.27.5.0 37.7 91.H 90.o 6S.6 SS. 6 S6.4 3.6 S3.27GJ.0 67.7 91.7 90.0 39.6 5';.6 bo.- '99.3 89.26
35.1 87.7 31.7 50. () 639.6 9.6 ODI.J 4 .3 39.2365.0 67.7 91.7 90.0 89.6 89.6 68.5 89.3 39.2765.o a7.7 31.7 90.1 89.6 a3,.7 a8.5, 693.6 9.31
S5.0 91. 7 90.1 89.6 89.7 a.s5 69.8 89.3085.0 67.7 31.7 90.1 893.6 as.6 88.5 89.3 89.2635.0 98.7 917 '0.1 89.6 89.6 88.5 9.8 8 9 .2965.0 87.7 91.7 90.1 '9.6 8s.6 88. 5 89.8 89.29
5.0 37.7 . 7 91.790,.1 89.6 89.6 88.5 89.8 a8.2885.0 87.7 91.7 90.0 89.6 89.6 as.s5 83. 9S.2785.0 87.7 31.7 90.1 89.6 89.6 3s.5 89.8 89.2885.0 87.7 '31.7 90.0 89.6 89.6 88.5 89.8 89.2785.0 87.7 91.7 930. 89.6 83.6 88.4 89.a 89.2585.0 37.7 91.6 '90.0 69.6 89.6 8.4 893.7 89.24
S5.O 87.7 31.6 90.0 89.6 89.6 88.4 939.7 89.2485.0 8 17.7 31.6 90. '39.6 69.6 88.C4 s9.6 89.2755.0 87.7 91.6 90.0 89.6 89.6 8.4 8.7 a 89.2684,3 87.7 '31.6 90.0i 63.6 89.6 88.4 89.7 89.233.0 87.7 o1.6 90.0 9.D 989.6 88.4 89.7 89.2565.0 87.7 31.6 90.0 89.6 89.6 88.4 89.7 89.2585.0 67.7 91.6 90.0 S9.6 99.6 88.4 839.7 '9585.0 67.7 91.7 30.0 39.6 89.6 88.4 89.8 89.2665.0 87.7 1.7 930.0 89.6 89.6 88.5 89.8 89.2864.0 67.7 91.7 90.0 83.6 89.6 88.5 69.8 8S.27ss. 67.7 91.7 90A.0 S.6 8S.6 88.5 a3.8 89.2635.0 67.7 91.7 90.0 89.6 89.6 38.5 63.8 89.2665.0 67.7 91. 90.1 38. 6S9.6 96.4 69.7 89.2765.0 67.7 91.7 90.0 39.6 89.6 88.4 83.8 89.2765.0 87.7 91.7 90.0 89.6 89.6 83.4 89.8 89.2565.0 67.7 91.7'90.1 83.6 E69.6 8.5 89.8 83.2795.0 87.7 931.7 O0.0 899.6 89.6 88.4 69.3 89.2665.0 67,7 91.7 30.0 63 d as. 3o.5 693.6 69.?65.0 87.7 91.7 '30.0 96? 39.6 oS 869.6 69.2565.0 67.7 91.7 '30,0 6 7. a I96 s a 664 6.6 69.2535.0 87.7 91.7 90.0 34.6 9.b 8.54 69.6 69.2465.0.;37.7 91.7 '30.0 8"2 - '23. o8,4 69.6 69.26O65 0 87.7 91.7 90. , b 8. " 46. 3 .565.0 67.7 91.7 '30.0 B3S. 89.2 6.4 E 8 E.C,.2685.0 87.7 9.47 I 90.0 33. 'O S 4, , 89.8 89.2585.0 67.7 1.7S 90.0 89.6 69.6 88.5 9.6 89.26
35.0 87.7 91.7 9O.0 89.6 89.6 8.4 83. a9 .2585.0 87.7 91.7 0.1, 89.6 66 .4 a 9. 99.285.0 07.7 917 30.1 69.6 89.6 88.4 893. 99.2-35.0 87.7 31.6 90.0 9S.6 89.6 88.4 63.7 9 9,284,9 :7. 91.6 90. 0 89.5 89.5 68.4 89.7 8.1a 34.9 87.6 91.6 90.0 89.6 89.6 82.4 89.7 8S9.28.9 97.7 31.. 90.0 39.6 89.6 83. 46.7 99.L84.9 37.7 '31.6 90.0 :9.6 8S96 8o8.4 89.7 89.2:.35.0 97.7 . "g.o 31039.6 89.6 3°6.1 39.7 89.2565.0 67.7 91.7 if,.0 89.i 89.6 86.4 63.9 39.2!35.0 7.7 91.7 90.1 89.6 33.6 38.5 09.8 89.2665.0 67.7 3I.7 90.1 8S.6 89.6 83.5 8.3. 3. 238,5.C , 31.7 39.1 39.6 89., 3.598 33.3l35.0 6.7 91.7 30.1 89.7 69.6 .5 4 2.- 9i3.2085. 0 67.7 91.'7 S0.1 8.6 9. 6 386.45 39.6 3 .2
J0 3: .3173. 69.6 H 6, 66.5 69.37 63.26
95.0 G7.7i .0 9:.1 39.j 39,6 66.5 69.6 99.2a
d,;.J oI,. 0-.i ,U.1 3. 7 9, 36.5 6. 63,30
0. 0.0. 0"
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i 523.5 39.'9 2.629.5 39.5 39.9 33.639.76 39.9 39'. 73'.6 39.5 39.3 39.739. 395 39.9 ^3.729.6 393 3 7. 3 .729.5 39.5 39.9 39.6
39.6 29. 399 39.739.39.3.6 39.' 39,7
39.6 39.5 33. 29.729. 6 39.0 i5,.9 '3H.7
359.5 393.5 39.03 39.739.7 39.6 39.O 39.73S . Io 3 9 . 5 3 9 . 3" 3, 7
39. 39'.5 0.0 39.7
393.6 39.6 3'3,03 39.73 39.5 40.0 39,739Z.6 32. 40.0 39.739.7 39.b 40 .0 3J.73'9.6 39.6 40.0 2'9.739.7 3936 40.0 39.739.7 3;.6 40.(0 3,?.7.2. 39.7 ' '4'4 739.7 3G3.7 40.' 3.3?3., 3I.G 6 40.0 7: 6
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12-22-1993AMPACITY TES
POSITION IT20 T21 T22 I t
23,4723' "622. 41'.4- A A,
.; . uD23."..'." A4-.
11 '27.; "" 1
22J.34.-.-4 A --
'~" '2r
4..,.
23.37i
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I I TIME
2. 21.
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23.30"'! ? .-4' -44
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C2ItE.NT6
Tested _y e i°4aP 3'4.2 1 2- - 3Ia 2 Z-zz -1 I Rev wz E WAO
AMPS
07: 5607:57
07:5908: 30'08: 010, 02
OS: 0402:0509:0608:07
93: 06
08:398d'-.:0?
id9: O?'
fS 8 1 0,
08:008:1j0.3: !50"2. '608:14
'?8: :8"'.32t
'Vs: I
oa3: 20.8:20
08:5'9:264(8: 27
S8:3
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03!: 408 3609:37
f,, . r
90: 4408:28oa:40
y40:.,E 4Q v 471
8: 4"
08.49JiO. -d9:" 47
AMPACITY TEST. JOB NUMBER 94-0357.I E-12
SAMPLE NUMBER 94-0357-02 DATA FILE c:\ 940357\4cl03m.O0
POSITION I POSITION 2T20 T21 T22 T23 T24 T25 T33 T27
POSITION 3 POSITION AVE AVG AMBIENT TEMPERATURET32 T59 T30 T31 1i T2 T3 Twave SLOPE Tail Tam2 Tam3 Taav. 39.8 90.5 68.9 89.0 89.0 39.9 90.1 85.0 97.7 91.7 90.1 9. 6S9.i6 28.5
89.8 a90.6 89.0 89.0 89. 0 83.9 0.1 a3. 87.7 13.7 90.1 39.6 3.6 8a.s893?0.9 89a.0 89.1 89.0 89.9; 90.! 65.0 97.3 31.7 90.1 89.7 89.6 8s.589.9 90.6 89.0 89.1 89.0 9.9j 30.1 35.0 37.7 91.7 90.1 39.6 39.7 a8.589.9 90.6 89.0 89.1 89.0 89.9 90.1 85.0 87.8 91.8 90.1 89.7 83.7 88.589.9 90.6 89.0 89.1 39.0 89.3 30.I 85.0 37.8 31.8 90.1 89.7 89.7 88.589.9 90.6 89.0 89.2 89.0 90.0 90.! 35.0 87.a 9l.8 90.1 89.7 S9.7 &8.589.8 30. b 9.0 89.2 393.0 89. 3 0.1 85,a0 87.3 91.7 790.1 83.7 39.7 88.589.9 90.6 89.0 89.1 89.0 89.9 90.1 65.0 87.8 31.7 90.1 89.7 89.7 88.589.9 90.6 89.0 89.2 89.0 39.9 90.1 85.0 87.7 31.7 30.1 83.7 39.7 88.5S9.8 90.5 89.0 39.1 29.0 89.9 90.1 85.0 87.6 91.7 90.1 89.8 89.6 88.539.8 90.6 89.0 83.2 33.0 3 39.3 9.1 85.0 37.7 91.7 30.1 39.6 33.7 88.539.8 90.5 88.9 89.1 38.9 89.9 30.0 8s.o 87.7 91.7 90.1 39.6 89.6 88.489.8 90.5 88.9 89.0 39.0 89.9 90.0 35 .0 87.7 31.7 90.1 89.6 39.6 88.589.8 90.5 e8.9 89.0 88.9 8S9.9 90.0 5.0 87.7 91.7 9O.0 89.6 89.6 88.489.8 90.5 88.9 39.1 3 8.9 39.3 9 0.0 85.0 87.7 91.7 90 .0O 89.6 39.6 88.489.8 90.5 88.9 89.0 88.9 99.9 90.0 85.0 37.7 31.7 90.1 89.5 89.6 88.4.8as 90.5 88.9 .13. 98 339.9 ?H. 85 .3 27.7 3 1.7 90.1 39.6 9..6 88.5
89.8 90.5 38.9 89.0 88.9 89.9 i90.0 S5.0 87.7 91.7 90.1 39.6 89.6 8.489.3 90.5 88.9 89.0 38.9 33.8 90.0 85.0 87.7 '31.7 30.0 89.6 89. 6 88.489.8 90.5 88.9 39.0 83.9 89.8 90.0 35.0 87.7 91.7 90.0 89.6 89.6 88.489.3 90.5 88.9 89.1 88.9 89.3 30.0 85.0 37.7 31.7 30.0 8s9. 89.6 88.489.8 90.5 89.9 83.1 88.9 89.8 90.0 85.0 87.7 91.7 90.1 89.6 89.6 88.48.9 390.5 88.9 89.0 88.3 89.3 30.0 85.0 37.,7 91.6 90.0 89.6 89.6 88.489.8 90.5 88.9 89.0 88.9 89.8 90.0 85.0 87.7 91.6 90.0 89.6 89.6 38.489.7 90.4 88.9 89.0 83.9 39.8 90.0 34.9 87.7, l.6 90.0 89.6 89.5 88.489.7 90.5 88.9 39.0 88. 9 39.8 9O.0 84.9 37.7 91.6 90.0 8S.6s 89.5 88.4893.7 90.5 88.9 839. s S.9 89.8 90.0 30 .0 87.7 '3.6Z '3o.0 3S.6 89.6 8S.489.7 90.5 89.9 89.1 88.9 89.90.0 834.9 387.7 91.6 90.0 89.6 89.6 38.
89.7 90.4 38.9 8s.3 38.3 3. 90.0 34.3 87.7 '31.6 90.0 89.6 89. 38.489.7 90.4 38.8 89.; 38.9 89.8 90.0 84.9 37.7 91.6 30.0 89.9 89.5 8.439.8 90.5 38.3 .9.0 3'.93 33.3 30.0 34.3 37.7 91.6 3O.0 39.6 39.6 38.489.8 90.5 83.9 89. 68.9 89.8 90.0 84.9 97.7 l1.7 90.0 39.6 89.6 88.49.3 9 .5 88.9 a39.0 3.3 ;333 90.0 ;3.0 87.7 31.7 30.0 a39 3g -384in9.8 90.5 88.9 39.3 03.3 8.3. 90.0 84.9 27.7 91.7 930. 0 39 Q. 34W 9.8 90.5 88.9 39. 8 .3 3S93 30.0, 35.0 37.7 31.7 30.J . 3 a.489.3 90.5 88.9 89.0 68.9 8 0.0 85.0 7. 91.7 30.1 a8.0 9saD 2s.9.8 '3.5 3.9 39.1 "3.9 33j3 30.1 a7o 35. 37.7 31. S q0.1 3. a . 3.4a9.3 90.5 89.9 89.2 83.9 29.9 90.0 35.0 37.7 91.7 90.1 39.b S S 6 433..8 90.5 33.3 33.1 3. a3.3 0 3 3 I.0 37. 7 3 .; I 0.i 39 339.3 90.5 38.9 39.1 9.0 9.9 9 0 .1 .087.7 1.79 0.1 89. S IS.- o6.439.3 30.6 39.0 89.2 89. 0 39.3 30.l I5.0 37.7 33.7 3. 23., o.; O, 039.8 90.6 39.0 89.2 89.0 89.9 90.1 5.0 97.8 31. 6 90.1 9.71 89.7 A9.-89.9 90.6 89.0 9.2 39.0 33.3 90.1 35.037.7 9.30.239.7 23.7 v38.39.9 0O.6 89.0 89.1 89.0 90.0 90.1 65.0 67.3 91.8 90.2 89. 7 3.7 38.539.9 '30.6 89j.0 89.1 39.0 30.0 30.1 35.0J 37.2 31 .330.233,7383.i 38.89.9 90.6 89.0 89.2 89.0 S9.0 90.2 85.1 87.3 91.8 90.2 89.7 S 9.7 88.639.9 '30.6 89.0 89. 1 3 9.0 90. 0 90.2 35.1 37.391. 90.2 89. 7 29.7 '2.639.9 30.5 89.0 89.11 89.0 90.9 0-.1 85. .87.3 91.3 90.2 89.7 9.7 S;.u
33.9 ?0.6 39i.0 89.1 i33.0 8 9.? 'i0.1 3;'.1 87.8381.3 30,2: 33.7 8i.7 88.589.9 0.9 9.0 3 9.1 89.0 90.0 2 35. 87.8 31. 90. 89.7 ,7 38.983.9 90.6 83.0 89.1 89.0 9o.O '30.1 3.0 87.8 31.3 a30.1 83.7 33.7 32.89.9 90.9 a 9.0 89.1 99.0 39.9 90.1 85.0 87.8 91.3 90.1 39.7 u3.7 38.-39. '0.6 83.0 3.2 33. 39.3 30.1 85.1 37.8 31.3 '30.2 33.7 9.7 3a8.39.9 9O.9S 89.0 39.2 8 9.9 90.1 85.0 37.;3 91.3 90.1 97 89.i 8.583.9 90.6 839.0 89.2 83.0 9.0 '30.1 85. i37.3 91.3 90. 139.7 33.7 38.699.9 30.6 39.0 9 9.2 39.3 39.9 90.1 85.1 87.8 91.7 90.1 39.7 a3.7 93.589.3 9b.5 39.0 S89.2 99.0 89 9 0. 1 '3. 35.0 87.3 91. 7 90.1 39. 7 a.6 83.7.589.89 0.5 38.3 89.1 89.0 89.9 90.0 85.0 37.7 91.7 90.1 33 3839.8 '0.5 8.9 3'9.2 89.0 99.9 903.0 S .O 0 97.7 91.7 90.1 39. 33. 9.
;?.8 83.28 -QO 39.7 39. 7 40.0 3?.339. 394.3O29 -0.0! 39.7 39.6 40.0 39.889.8 29.32 0.00 3 9.7 39.6 40.0 39.883. a39.31 0. 01i 3)3.7 39.6 40.0 334.899.3 39.33 0.01 33. 6 40.1 39.389.3 89.33 0.02 39.7 39.7 40.0 39.889.8 89.35 0.04 39.7 39.7 40.0 39.839.3 89.32 0.04 39.3 39.6 40.0 39.889,8 89.32 0.05 39.7 33.6 40.0 39.883.8 39.32 0.06 3i.8 39.6 4'.0 33.B69.8 89.30 0.06 39.3 39.7 40.1 3.9839.8 3.31 0.07 39.8 39.7 40.0 39,289.8 89.27 0.07 39.7 39.6 40.1 39.889.8 89.27 0.07 39.7 39.6 40.1 33.289.8 89.25 0.06 39.8 39.7 40.0O 39.38?.3 89.25 0.06 39.7 39.7 40.0 309.89.8 89.26 0.05 39.7 39.7 40.0 3?.3839. 39.27 0.05 39.8 39.7 40.0 3-.289.9 39.26 0.05 39.7 3S.6 40.1 33.88,3. 89,24 0.05 39.8 39.7 40.1 39.389.8 89.24 0.04 39.7 39.6 40.0 39.889.8 89.25 0.04 39.7 39.8 40.1 39.989.8 89.29 0.03 39.3 39.6 -0.0 393.89.7 8 9. 23 0 . 03 3i3.8 397 40 ., 'v' 3.99.7 9.?23 0.03 39.7 39.7 40.1 39.389.7 89.21 0.02 33.7 39.6 40.1 3'3.389.7 89.22 0.01 39.7 39.7 401. 39.339.7 39.23 0.01 39. 23.7 40. 1 39.89.728922 b.0l 39.3 39.7 40.2 -9?.89.7 39.'. -0.00 33.i 39.7 '0.1 3?.289.7 39.20 -0.01 39.7 39.7 '0. 139.339.7 39.22 -O.J ''3.73.740. 39.389.8 99.23 0.0I2 3?.3 " "'7 4Q,1 "3?.?39.3 89.25 -do.'2 3 3. 439,93. 2 'P '2 72 "293S19, S,; 5. - 03!. 00 2 .33 S40 . 3I . a
89.3 9.24 - " 3.3 E 39.7 40.1 "- 43?.c 3 0. 5-d )33. ? 8 40. 1 'i39.3 S89.2 0. (3 3"24 -39.3 33.27 -O. Q3 iS. 3? ; 3 4,1,-,398 . 9.27 -'O.3 3 8; 3 4Q. '33.3 33.27 -e" -'. *A' 40.1
d ,. -,0. 9.8 "". 40 1 32,93. 3 j.3 -0.02 39.3 3?.3 40.9 2 3.3b.. 5 3S -0. 02 3.S 3. 7 '54 .0 3.3
a .3' 3. -0.01 39.3.9 3?. 0 4 0.. -O)39.9 H3" bO0.00 40.0 33. 40 C .33283.3 89.3 d' 0.00 39.9 a 4$ . 03.3
'9 89.37 0.00 .10.0 93. 4Q.-2 40.039.33 as. 3 0.01 3?.3 "'2 3 4Q. ' 3,3.939. 39. 36 O .Q I '2 . O. .40399 ,3350 " ' " A AP'4
39.93i3.37 O0'' C. .. 40'."2 4Q.O"
9.3 39.33 O.Q2 40 3 ,2 40 4Q.813 3.14 819. J6 0.0 3q.q 'to"' 4 0.03?.3 9.34 O 04 3i2 ', -, 3 i??.3'ai.36 O.A 5 40.0. " 4. d;i39.3 39.34 O.0 39.939.8 40. 40. j833 3?.32 0.05 3 9., 39.j' 4'.3 40.03 3 I 0 9v 40 .0
39. 93). 0,0 JO. ;) A
- -
AMPSI' TIME
23. 44t~ r
2W 4 723. 4723.48
23.48
O?' ')C
23.3
2 J. 34
'2'2 '2'2
O4. S"3 . 0
r.nr49 .2..
23.10
2334
"'2ra
"An ?~
LI"
? 4".on 4
' .--
. 1
L"3.37
A .. '1
23.41723.42
'3.J J232
23 '25
Snt ' .9
,. i,'
p.0 3Q
'2"& '1
9.An '4'
"''2 '2'
7 A 2.
23.421
"'2 ' |22
'2"ti
., 3'¶4)|%
7A" "
08:5608:57
03:59
O,-a: 0 109:00
O?: 0509:07i
ta:1 A
09:0!09: 10
09:1309:15203: 18
?:'09: 17
09: 4O 3:
09:19
03-A: W7
0'3:"'0
A.:. 5.'
40.1
'3?: 41
43
'44
-09500
d7
' 43
p'a: 449
JA.?
!, 2-'
COMMNENTS
I22ZSL
12-22-1993
.. ='l''2d A d d t,_; -1e~2 -22 -93Tested Sy &24aa&
AMPACITY TEST. JOB NUMBER 94-0357.5 E-13
SAMPLE NUMBER 94-0357-03 DATA FILE C:\940357\24C6GBA.RE1 12-15-1993
POSITION 1 POSITION 2 POSITION 3
Tlax Tlan T2mx T2mn T3ax T3an
90.590.590.590.590.590.590.590.590.590.590.590.590.590.590.590.590.590.590.590.590.590.590.590.590.590.590.590.590.590.590.590.590.590.590.590.590.590.590.590.590.590.590.590.590.590.590.590.590.590.590.490.490.590.590.590.590.590.490.490.4
73.673.673.673.673.673.673.673.673.673.673.673.573.673.573.673.573.573.573.573.573.573.573.573.573.573.573.573.573.573.573.573.573.573.573.573.573.573.573.573.573.573.573.573.573.573.573.473.473.473.473.473.473.473.473.573.473.473.473.472. 4
90.290.290.290.290.290.290.290.290.290.290.290.290.290.290.290.290.290.290.290.290.290.290.290.290.290.290.290.290.290. 190.290.290. 190. 190.190.290. 290.290. 290. 290.290.290. 290.290.290. 290. 290.290.290.290.190.190. 290.2190.290.290.190.190. I
73.573.573.573.573.573.573.573.573.573.573.573.573.573.473.573.473.473.473.473.473.473.473.473.473.473.473.473.473.473.473.473.473.473.473.473.473.473.473.473.473.473.473.473.473.473.473.473.473.473.473.473.473.373.373.373.373.373.373.373.3
89.389.389.389.289.389.389.389.389.389.389.389.389.389.389.389.389.389.389.389.289.289.389.389.389.389.389.389.389.389.389.289.289.389.389.389.289.389.389.389.489.389.389.389.389.389.389.389.289.289.389.289.289.389.289.389.289.289.389.289.2
75.175.175.175.175.175.175.175.175.175.175.175.175,175.175.175.175.175. 175.075.175.075.175.175.175.075.075.175.175.075.175.175.075.175. 175.175. 175.175.175.175.275.175.175.175.175.175.175.175.075.075.175.075.075.075.175.075.175.075. 175.175.0
POSITION AVERAGES-Tlavg T2avg T3av9
79.3579.3479.3279.3579.3279.3279.3279.3279.3279.3479.3279.3379. 3679.3079.3579.3079.3379.2979.2979.2879.2879.3079.3079.2979.2879.2679.3079.2679.2679.2679.2579.2479.2579.2579.2579.2679.2679.2579.2679.2379.3179.2879.2979.2679.2579.2579.2579.2679.2279.2579.2479.2479.2279.2479.2679.2279.2279.2179.2179.20
78.6078.5978.6178.6078.6078.6078.6178.5978.6178.6178.5978.5978.5978.5778.6178.5778.5778.5778.5678.5778.5778.5678.5578.5778.5578.5578.5478.5478.5478.5378.5378.5378.5178.5378.5178.5478.5478.5478.5478.5778.6078.5578.5478.5378.5378.5478.5478.5378.5378.5478.5178.5078.5078.5178.4978.5078.5078.4778.4778.45
78.8878.8878.8978.8678.8978.8978.8878.8878.9178.9078.8578.8878.8978.8678.8978.9078.8678.9078.8178.8478.8278.8978.8878.8878.8478.8278.8678.8478.8478.8678.8278.8078.8578.8478.8278.8578.8478.8678.8878.9478.8878.8478.8978.8278.8478.8578.8478.8178.8278.8478.8178.8078.8478.8278.8278.8478.7978.8278.8178.80
AVGTwave
78.9478.9378.9478.9478.9478.9478.9478.9378.9578.9578.9278.9378.9578.9178.9578.9378.9278.9278.8978.9078.8978.9278.9178.9178.8978.8878.9078.8878.8878.8878.8778.8578.8778.8778.8678.8878.8878.8878.8978.9378.9378.8978.9078.8778.8778.8878.8878.8778.8678.8878.8578.8578.8578.8678.8678.8578.8478.8478.8378.82
AMBIENT TEMPERATURESLOPE Tail Taa2 Tam3 Taav
0.010.020.020.020.030.030.030.030.040.040.040.040.040.040.040.040.040.050.050.040.040.040.040.040.030.030.030.020.010.010.00
-0.00-0.01-0.01
-0.02-0.02-0.02-0.02-0.03-0.03-0.03-0.04-0.04-0.05-0.05-0.06-0.06-0.06-0.07-0.07-0.07-0.08-0.08-0.09-0.09-0.09-0.09-0. 10-0. 10-0.10
40.1 40.4 40.5 40.340.1 40.4 40.4 40.340.2 40.4 40.3 40.340.1 40.4 40.4 40.340.1 40.4 40.4 40.340.1 40.4 40.5 40.340.0 40.4 40.4 40.340.1 40.4 40.3 40.340.1 40.3 40.4 40.340.1 40.4 40.4 40.340.0 40.3 40.3 40.240.0 40.3 40.3 40.240.0 40.3 40.3 40.240.0 40.3 40.2 40.240.0 40.3 40.2 40.240.1 40.3 40.3 40.240.0 40.3 40.2 40.239.9 40.3 40.2 40.140.0 40.3 40.2 40.239.9 40.3 40.2 40.139.9 40.3 40.1 40.140.0 40.2 40.1 40.140.0 40.3 40.3 40.239.9 40.2 40.2 40.139.9 40.2 40.1 40.140.0 40.2 40.1 40.139.9 40.2 40.1 40.139.9 40.2 40.1 40.139.9 40.2 40.2 40.140.0 40.2 40.1 40.139.9 40.2 40.1 40.139.8 40.2 40.1 40.0398 40.1 40.0 40.039.9 40.1 40.1 40.039.8 40.2 40.1 40.039.9 40.2 40.2 40.139.8 40.2 40.2 40.139.8 40.2 40.1 40.039.8 40.1 40.2 40.039.8 40.1 40.2 40.039.9 40.2 40.1 40.139.9 40.2 40.2 40.139.8 40.2 40.1 40.039.9 40.2 40.2 40.139.9 40.2 40.2 40.140.0 40.2 40.2 40.139.9 40.2 40.2 40.139.9 40.1 40.1 40.039.9 40.2 40.2 40.139.8 40.2 40.2 40.139.8 40.1 40.1 40.039,8 40.2 40.2 40.139.9 40.2 40.2 40.139.9 40.2 40.1 40.139.9 40.2 40.1 40.139.9 40.2 40.0 40.039.9 40.2 40.1 40.139.9 40.2 40.1 40.139.9 40.2 40.1 40.139.9 40.2 40.1 40.1
AMPS .it 1'
42.52 42.5942.65 42.7142.64 42.7042.67 42.7342.44 42.5042.65 42.7242.56 42.6042.59 42.6342.50 42.5542.58 42.6342.52 42.5342.61 42.6242.66 42.6742.64 42.6442.61 42.6142.48 42.5142.49 42.4942.43 42.4242.45 42.4542.55 42.5342.76 42.7342.70 42.6742.60 42.6242.55 42,5242.52 42.4842.57 42.5442,60 42.5642.53 42.4842.53 42.5042.38 42.3942.45 42.4142.44 42.3942.58 42.5342.78 42.7642.79 42.7742.84 42.8142.77 42.7242.96 42.9042.90 42.8442.98 42.9242.50 42.4642,65 42.6242.54 42.4842.50 42.4742.58 42.5542.39 42.3842.44 42.4142.49 42.4342.50 42.4742.57 42,5242.55 42.5242.56 42.5542.64 42.6142.61 42.5642.75 42.7442.55 42.4942.56 42.5242.52 42.5242.56 42.5542.48 42.48
COMMENTS
Tested By CZJEL Date 1_j-.1-1,3 Reviewed By;,( & Date/2-/1-2i
TIME
07:3507:3607:3707:3807:3907:4007:4107:4207:4307:4407:4507:4607:4707:4807: 4907:5007:5107:5207:5307:5407:5507:5607:5707:5807:5908:0008:0108:0208:0308:0408:0508:0608:0708:0808:0908:1008:1108:1208:1308:1408:1508:1608:1708:1808:1908:2008:2108:2208:2308:2408:2508:2608:2708:2808:2908:3008:3108:3208:3308:34
AMPACITY TEST. JOB NUMBER 94-0357.E- 14
SAMPLE NUMBER 94-0357-03 DATA FILE C:\940357\24C6GBA.REI
POSITION I POSITION 2 POSITION 3Tlnx Tln T2jx T2an T3ax T3mn
90.490.490.490.490.490.590.490.490.490.590.490.590.590.590.590.590.590.590.590.590.590.590.590.530.590.590.590.590.590.590.590.590.590.590.590.590.590.590.590.590.590.590.590.590.590. 590.590.590.590.590.590.590.590.590.590.590.590.590.590.5
73.473.473.473.473.473.473.473.473.473.573.573.573.573.573.573.573.573.573.573.473.573.473.573.473.573.573.573.573.573.573.573.573.573.573.573.573.573.573.573.573.573.573.573.573.573.573.573.573.573.573.573.573.573.573.473.573.573.573.473.5
90.190. 190.190.190.190. 190.190.190.190. 190. 190.190.1930. 190.190. 290.290.290.2)90.190.190.290.290.290.290.290.290.290.290.290.290.290.290.290.290.290.290.290.290.290.290.290.290.230.290.290.290.290.290.290.290.290.290.290.290.2
90.290.290.2
90.2
73.373.373.373.373.373.373. 373.373.373.473.473.473.473.473.473.373.473.373.373.373.473..473.473.473.473.473.473.473.473.473.473.473.473.473.473.473.473.473.473.473.473.473.473.473.473.473.473.473.473.473.473.473.473.473.473.473.473.473.473.4
73.43
89.289.289.289.289.289.289.289.289.289.389.289.389.389.389.389.389.389.389.389.389.389.389.389.389.389.389.389.389.389.389.389.389.389.389.389.389.389.389.389.389.389.389.389.389.389.389.389.389.383.369.389.3389.389.369.383.389.389.389.389.3
75.075.075.075.075.075.075.175.075.075.175.175.075.075.075.075.075.075.175.075.075.175.175.175.175.175.175.175.175.175.175.075.175.175.175.175.175.175.175.175.175.175.175.175. 175.175.175.175.275.275. 175.175.275.175. 175.175.175.175.175.175.1
-POSITION AVERAGES,Tlavg T2avg
79.22 78.4579.20 78.4679.21 78.4979.20 78.4479.19 78.4679.21 78.4679.22 78.4779.20 78.4979.22 78.4979.26 78.5079.28 78.5379.25 78.5179.29 78.5379.26 78.5379.28 78.5379.29 78.5379.26 78.5479.26 78.5379.29 78.5379.26 78.5179.29 78.5379.29 78.5479.28 78.5479.25 78.5479.30 78.5479.31 78.5479.26 78.5479.28 78.5479.26 78.5479.31 78.5479.25 78.5379.30 78.5479.28 78.5479.31 78.5479.29 78.5479.26 78.5379.31 78.5479.31 78.5479.30 78.5479.28 78.5479.28 78.5479.31 78.5579.31 78.5479.30 78.5479.28 78.5579.31 78.5479.30 78.5479.28 78.5479.30 78.5479.28 78.5479.28 78.5479.28 78.5579.29 78.5579.30 78.5579.'28 78.5379.29 78.5479.26 78.5579.29 78.5479.26 78.5479.28 78.53
T3avg
78.8078.7678.7978.7678.7978.7978.8078.7578.7878.8478.8478.8278.8478.8278.8278.8178.8178.8878.8478.8178.8578.8678.8578.8578.8978.8478.8478.8278.8678.8678.8478.8576.8478.8678.8678.8678.8278.8678.8978.8978.8878.8878.8978.8978.8978.8978.8678.9178.9078.8378.8678.9178.8978.8578.8678.8878.8878.8978.8578.84
AVGTwave
78.8278.8178.8378.8078.8178.8278.8378.8178.8378.8778.8878.8678.8878.8778.8878.8878.8778.8978.8878.8678.8978.9078.8978.8878.9178.9078.8878.8878.8978.9078.8778.9078.8878.9078.9078.8878.8978.9078.9178.9078.9078.9178.9178.9178.9078.9178.9078.9178.9178.3078.8978.9178.9178.3078.8978,9078.9078.9078.e878.88
AMBIENT TEMPERATURESLOPE Taal TaA2 Tan3 Taav
-0..11-0.11-0. 11-0.11-0.12-0.12-0. 11-0.12-0.11
-0.11-0.10-0.10-0.09-0.08-0.08-0.07-0.06-0. 06-0.05-0. 05-0.05-0.04-0.03-0.03-0.02-0.01-0.01-0.01-0. 000.000.000.000.010.010.010.020.020.020.030.040.050.060.060.070.070.080.080.080.090.090.090.090.090.090.090.090.090.090.080.08
39.9 40.2 40.1 40.139.8 40.1 40.0 40.039.8 40.2 40.1 40.039.9 40.2 40.1 40.140.0 40.2 40.1 40.139.9 40.2 40.2 40.139.9 40.2 40.1 40.139.9 40.1 40.1 40.039.9 40.2 40.2 40.139.8 40.1 40.2 40.039.9 40.1 40.1 40.039.9 40.2 40.1 40.139.9 40.2 40.2 40.139.9 40.2 40.1 40.139.9 40.2 40.2 40.139.9 40.2 40.1 40.139.8 40.2 40.2 40.139.8 40.2 40.2 40.139.8 40.2 40.1 40.039.9 40.2 40.1 40.139.9 40.1 40.2 40.140.0 40.2 40.2 40.139.9 40.2 40.1 40.139.9 40.2 40.2 40.139.9 40.2 40.1 40.139.9 40.2 40.3 40.140.0 40.2 40.3 40.240.0 40.2 40.1 40.139.9 40.2 40.1 40.139.9 40.1 40.1 40.039.9 40.2 40.2 40.139.9 40.2 40.2 40.139.8 40.2 40.1 40.039.9 40.2 40.2 40.139.9 40.2 40.2 40.139.8 40.2 40.2 40.139.9 40.2 40.1 40.139.9 40.2 40.1 40.140.0 40.2 40.3 40.239.9 40.2 40.2 40.139.9 40.1 40.1 40.039.9 40.1 40.1 40.039.9 40.2 40.1 40.140.0 40.2 40.2 40.139.9 40.2 40.2 40.139.9 40.2 40.2 40.139.9 40.2 40.2 40.139.9 40.2 40.2 40.139.9 40.2 40.1 40.139.9 40.1 40.1 40.039.8 40.2 40.1 40.040.0 40.2 40.0 40.133.9 40.2 40.1 40.139.8 40.2 40.2 40.139.9 40.1 40.2 40.139.9 40.2 40.2 40.139.8 40.2 40.1 40.039.9 40.2 40.2 40.139.8 40.2 40.1 40.039.8 40.3 40.2 40.1
' AMPSIt I' TIME
42.58 42.57 08:3542.51 42.46 08:3642.49 42.47 08:3742.66 42.65 08:3842.68 42.69 08:3942.74 42.75 08:4042.72 42.72 09:4142.64 42.62 08:4242.70 42.71 08:4342.77 42.75 08:4442.92 42.90 08:4542.33 42.92 08:4642.88 42.89 08:4742.41 42.40 08:4842.63 42.64 08:4942.76 42.71 08:5042.69 42.65 08:5142.73 42.69 08:5242.66 42.60 08:5342.68 42.67 08:5442.58 42.57 08:5542.61 42.60 08:5642.62 42.58 08:5742.68 42.65 08:5842.67 42.63 08:5942.69 42.68 09:0042.73 42.73 09:0142.66 42.63 09:0242.58 42.53 09:0342.55 42.49 09:0442.70 42.67 09:0542.66 42.63 09:0642.77 42.71 09:0742.65 42.62 09:0842.69 42.66 09:0942.64 42.63 09:1042.62 42.58 09:1142.70 42.66 09:1242.68 42.68 09:1342.83 42.80 09:1442.81 42.75 09:1542.82 42.76 09:1642.31 42.27 09:1742.67 42.66 09:1842.72 42.69 09:1942.70 42.67 09:2042.63 42.60 09:2142.62 42.59 09:2242.62 42.58 09:2342.70 42.64 09:2442.63 42.57 09:2542.60 42.56 09:2642.64 42.59 09:2742.65 42.61 09:2842.54 42.50 09:2942.75 42.72 09:3042.66 42.61 09:3142.66 42.63 09:3242.51 42.45 09:3342.61 42.58 09:34
COMMENTS
Tested By erao vedo Date a-5-j,3 Reviewed 9 Date/2-I/-L i
12-15-1993
AMPACITY TEST. JOB NUMBER 94-0357.-1 FE- 1 5 -
SAMPLE NUMBER 94-0357-03 DATA FILE C:\940357\24C668A.REI
POSITION 1 POSITION 2 POSITION 3 -POSITION AVERAGES-
Tlax Tln T2nx T2en T3ax T3mn Tlayg T2avg T3avg
5
0.5
90.590.590.590.590.590.590.590.590.590.590.590.590.590.590.490.490.490.490.490.490.490.490.490.490.490.490.490.490.4
90.490.4
* .40.5
90.590.590.590.590.590.590.590.590. 590.590.590.590.5"90.590.590.590. 590. 590.590.5
90.5
73.573.573.573.473.473.573.573.573.573.573.573.573.473.573.473.473.573.473.473.473.473.573.473.473.473.573.473.473.473.473.473.473.573.573.573.573.473.573.573.573.573.573.573.573.573.573.573.573.573.573.573.573.573.573.573.573.673. 673.573.5
90.290.290.290.290.290.190.290.290.290.190.190. 190.290.190.190.290.190.190.190.190.190.190.190.190.190,190.190.190.190.190.190.190.190.190.190.190.190.190.190.190.190.290.190.190.190. 190.190.290.190.190.190.190.190.290.290.290.290.290.290.2
73.473.473.473.373.373.373.473.473.473.473.473.473.473.473.373.373.373.373.373.373.373.373.373.373.373.373.373.373.373.373.373.373.473.373.373.473.373.473.473.473.473.373.473.473.473.473.473.473.473.473.473.473.473.473.473.473.473.473.473.4
89.389.389.389.389.389.389.389.389.389.389.389.389.289.389.289.289.389.289.289.289.289.389.289.389.289.289.289.299.289.289.289.289.289.289.389.389.289.289.389.389.389.389.389.389.389.389.389.389.389.389.389 389. 339.3
89.383.389.389.389.389.3
75.175.175.175.175.175.175. 175.175.175.175.175.175.175.175.175. 175.175.175.175.075.075.075.075.075.075.175.075.175.175.175.175.175.075.075.175.175.175. 175.175.175.175.175.175.175.275.175.275.175.175. 175.175.275.275.275. 275.275.275.275.175.1
79.26 78.5479.25 78.5379.28 78.5479.26 78.5379.24 78.5179.25 78.5079.26 78.5379.25 78.5379.24 78.5379.25 78.5079.25 78.5079.25 78.5179.26 78.5179.24 78.5079.24 78.4979.25 78.5079.25 78.4979.24 78.4779.24 78.4579.22 78.4479.19 78.4479.22 78.4579.19 78.4379.21 78.4579.21 78.4479.22 78.4679.21 78.4779.22 78.4979.21 78.4579.20 78.4579.21 78.4779.22 78.4779.25 78.5079.24 78.4779.24 78.4779.25 78.5079.24 78.4979.26 78.5179.26 78.5379.25 78.5179.26 78.5179.26 78.5179.28 78.5179.26 78.5379.25 78.5179.26 78.5379.26 78.5379.30 78.5479.26 78.5179.26 78.5379.29 78.5379.26 78.5379.29 78.5479.29 78.5579.28 78.5479.28 78.5479.30 78.5679.31 78.5579.31 78.5579.30 78.54
78.8878.8878.8878.8678.8678.8978.8878.8878.8678.8278.8478.8578.8178.8278.8278.8278.8578.8178.8178.7978.8178.8178.7678.8078.7878.8278.7878.8478.8278.8478.8178.8078.7978.7878.8478.8478.8478.8578.8878.8978.8578.8678.8578.8878.8978.8878.9078.8978.8678.8678.9878.8978.8978.8978.9178.9178.9078.8978.8678.85
AV6Twave
78.8978.8878.9078.8878.8778.887B.8978.8878.8878.8678.8678.8778.8678.8578.8578.8678.8678.8478.8378.8278.8178.8378.7978.8278.8178.8478.8278.8578.8378.8378.83378.8378.8578.8378.8578.8678.8578.8878.8978.8878.8878.8878.8878.8978.8878.8978.9078.9178.8878.8878.9078.8978.9078.9178.9178.9178.9278.9278.9178.90
AMBIENT TEMPERATURE
SLOPE Tael Taa2 Taa3 Taav
0.07 39.9 40.2 40.1 40.1OO7 39.9 40.2 40.3 40.10.06 40.0 40.2 40.2 40.10.05 40.0 40.2 40.1 40.10.04 39.9 40.2 40.2 40.10.04 39.9 40.2 40.3 40.10.03 39.8 40.2 40.2 40.10.02 40.0 40,2 40.1 40.10.02 39.9 40.2 40.2 40.10.01 39.9 40.2 40.1 40.10.01 40.0 40.2 40.2 40.10.00 39.9 40.2 40.2 40.1
-0.00 39.9 40.2 40.3 40.1-0.01 39.9 40.2 40.2 40.1-0.01 39.9 40.2 40.2 40.1-0.02 39.9 40.2 40.2 40.1-0.02 39.8 40.2 40.1 40.0-0.03 39.9 40.2 40.1 40.1-0.03 39.9 40.2 40.1 40.1-0.04 39.9 40.2 40.1 40.1-0.05 39.9 40.2 40.2 40.1-0.05 39.9 40.2 40.2 40.1-0.06 40.0 40.2 40.3 40.2-0.07 39.9 40.2 40.3 40.1-0.07 39.9 40.2 40.2 40.1-0.08 39.9 40.2 40.2 40.1-0.08 39.9 40.2 40.2 40.1-0.08 39.9 40.2 40.3 40.1-0.09 39.9 40.2 40.2 40.1-0.09 39.8 40.2 40.2 40.1-0.09 39.8 40.2 40.2 40.1-0.10 39.9 40.3 40.2 40.1-0.10 39.9 40.3 40.2 40.1-0.10 39.9 40.3 40.2 40.1-0.10 40.0 40.2 40.3 40.2-0.10 40.0 40.2 40.3 40.2-0.10 39.9 40.2 40.2 40.1-0.09 40.0 40.2 40.3 40.2-0.09 40.0 40.3 40.3 40.2-0.08 39.9 40.2 40.3 40.1-0.08 39.9 40.3 40.2 40.1-0.08 39.9 40.3 40.2 40.1-0.07 39.9 40.3 40.3 40.2-0.06 39.9 40.3 40.3 40.2-0.06 40.1 40.2 40.2 40.2-0.05 40.0 40.2 40.2 40.1-0.05 39.9 40.2 40.2 40.1-0.04 39.9 40.3 40.1 40.1-0.03 40.0 40.4 40.1 40.2-0.03 39.9 40.2 40.2 40.1-0.02 39.9 40.3 40.2 40.1-0.01 39.9 40.2 40.2 40.1-0.00 40.0 40.3 40.4 40.20.00 40.0 40.3 40.2 40.20.01 40.0 40.3 40.3 40.20.02 40.1 40.2 40.2 40.20.03 40.0 40.3 40.3 40.20.03 40.0 40.3 40.3 40.20.04 40.0 40.3 40.4 40.20.05 40.0 40.3 40.2 40.;2
COMMlENTS
Date ajj-113 Reviewed By4,/d . Date J2 -6-93
12-15-1993
I . AMPSIt 1'
42.60 42.5642.57 42.5642.66 42.6442.49 42.4642.63 42.6042.58 42.6042.72 42.6742.61 42.5842.58 42.5542.59 42.5842.56 42.5842.56 42.5642.48 42.4642.41 42.4142.61 42.6142.69 42.6642.61 42.5942.58 42.5742.44 42.4342.54 42.5442 47 42.4842 54 42.S542.52 42.5642.72 42.7442.68 42.6842.63 42.6342.56 42.5742.52 42.5442.52 42.5242.62 42.6142.86 42.8542.71 42.7342.71 42.7342.69 42.7142.76 42.7942.68 42.7242.74 42.7442.72 42.7642.72 42.7742.68 42.7042.62 42.6442.67 42.6642.66 42.7042.59 42.6242.59 42.6342.67 42.6942.61 42.6142.70 42.6742.64 42.6842.79 42.7942.75 42.7742.82 42.8342.72 42.7842.76 42.7642.68 42.6942.76 42.7642.65 42.6742.69 42.7142.51 42.5442.44 42.44
TIME
09:3509:3609:3709: 3809:3909:4009:4109: 4209:4309:4409:4509:4609:4709:4809:4909:5009:5109:5209:5309:5409:5509: 5609:5709:5809:5910:0010:0110:0210:0310:0410:0510:0610:0710:0810:0910:1010:1110:1210:1310:1410:1510:1610:1710: 1810:1910:2010:2110:2210:2310:2410:2510:2610:2710:2810:2910:3010:3110: 3210:3310:34
Tested By (k nleze cL
AMPACITY TEST. JOB NUMBER 94-0357.
IE-16SAMPLE NUMBER 94-0357-03 DATA FILE C:\940357\24C663M.001
POSITION I POSITION 2 POSITION 3 -POSITION AVERAGES-
Tlx Tlnn T2ex T2an T3ax T3an Tlavg T2avg T3avg
89.689.789.689.689.689.689.689.689.689.689.689.689.689.689.689.689.689.689.689.689.68?.689.689.689.689.689.589.689.689.689.689.589.689.689.589.689.689.589.589.589.589.589.589.589.589.589.589.589.589.589.589.589.589.589.589.589.589.589.589.5
84.285.284.984.284.484.784.185.184.484.784.285.084.985.084.284.185.184.385.184.385.184.484.784.884.784.585.084.184.184.584.284.885.184.785.184.484.284.585.084.184.684.184.785.084.785.085.084.684.884.484.284.784.684.284.184.284.884.984.384.0
90.390.390.390.390.390.390.390.390.390.390.390.390.390.390.390.390.390.390.390.390.390.390.390.390.390.390.390.390.390.390.390.390.390.390.390.390.390.390.3'30.390.390.490.430.490.490.490.490.490.390.390.490.490.490.490.490.490.490.490.490.4
B5.085.085.085.085.085.085.085.085.085.085.085.085.085.085.085.085.085.1B5.085.085.085.085.085.085.085.185.185.085.185. 185.185.185.185.185.185. 165.185.185.185.185.185.185.185.185.185.185.185.185.185. 185.185.185.185. 185. 185.185.185.185.185.1
90.3 84.590.3 84.590.3 84.590.3 84.590.3 84.590.3 84.590.3 84.590.3 84.590.3 84.590.3 84.590. 4 84.590. 3 84.590.3 84.590.3 84.590. 3 94.590. 3 84.590.4 84.590.3 84.590.4 84.590.4 84.590.4 84.590.4 84.690.4 84.690.4 84.690.4 84.690.4 84.590.4 84.690.4 84.690.4 84.690.4 84.690.4 84.690.4 84.690.4 84.690.4 84.690.4 84.690.4 84.690.4 84.690.4 84.690.4 84.690.4 84.690.4 84.690.4 84.690.4 84.690.4 84.690.4 84.690.5 84.690.5 84.690.4 84.690.4 84.6?0.4 84.690.4 84.690.5 84.690.5 84.690.5 84.690.5 84.690.5 84.790.5 84.790.5 84.790.4 84.630.5 84.6
86.7186.8586.7886.7086.7186.7586.6986.8086.6986.7586.6886.7686.7586.7686.6986.6486.7686.6686.7886.6686.7686.6886.7186.7286.7186.6986.7286.6366.6386.6886.6486.7066.7486.7086.7486.6486.6086.6486.7186.5786.6586.5786.6686.6886.6586.6886.6886.6386.6486.5986.5686.6386.6086.5686.5486.5586.6386.6486.5686.53
87.1187.1187.1187.1187.1187.1187.1187.1187.1187.1187.1387.1187.1387.1387.1487.1587.1387.1587.1487.1487.1587.1487.1487.1687.1687.1887.1987.1587.2087.1887.1987.1987.1887.1987.1987.1987.1987. 1987.1987.2087.2087.2087.2187.2187.2187.2187.2187.2187.1987.2087.2187.2187. 287.2187.2287.2187.21837.2187.2187.21
B7.3087.2887.3487.3487.3287.3587.3587.2987.3087.2887.3587.3287.3187.3187.3287.3187.3087.3287.3587.3587.3487.4187.4187.4387.4187.3187.4087.4187.3587.3487.3887.3487.3587.4387.4087.4087.3987.3687.4187.4187.4087.3987.4187.4187.3987.4487.4487.4687.4087.4387.4387.4387.4687.4587.4187.4387.4587.4687.4037.41
AVGTwave
87.0487.0887.0887.0587.0587.0787.0587.0787.0387.0587.0587.0787.0687.0787.0587.0387.0687.0587.0987.0587.0887.0787.0987.1087.1087.0687.1087.0687.0687.0687.0787.0787.0987. 1087.1187.0787.0687.0687.1087.0687.0887.0587.1087.1087.0887.1187. 1187.1087.0787.0787.0787.0987. 1087.0787.0687.0687.1087.1087.0687.05
AMBIENT TEMPERATURESLOPE Taal Ta&2 Taa3 Taav
-0.00-0.00-0.00-0.00-0.01-0.00-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.02-0.02-0.02-0.02-0.02-0.02-0.01-0.01-0.01-0. 00-0.00-0.00-0.00-0. 00-0.00-0.00-0.000.000.010.010.010.010.010.010.010.010.010.010.020.020.020.030.030.030.030.030.030.030.030.030.030.030.030.030.03
39.8 39.4 39.5 39.639.8 39.3 39.7 39.639.8 39.4 39.6 39.639.7 39.3 39.7 39.639.8 39.3 39.8 39.639.7 39.4 39.6 39.639.8 39.4 39.6 39.639.7 39.4 39.7 39.639.7 39.4 39.6 39.639.8 39.4 39.7 39.639.8 39.4 39.7 39.639.8 39.6 39.8 39.739.8 39.4 39.7 39.639.8 39.4 39.7 39.639.9 39.4 39.8 39.739.9 39.4 39.8 39.739.9 39.5 39.7 39.739.9 39.5 39.8 39.739.9 39.4 39.8 39.739.9 39.4 39.7 39.739.9 39.4 39.8 39.739.8 39.4 39.8 39.739.9 39.4 39.7 39.7-39.9 39.4 39.8 39.739.9 39.4 39.8 39.739.8 39.4 33.7 39.639.8 39.4 39.8 39.739.3 39.5 39.8 39.79.7 39.4 39.8 39.639.9 39.4 39.7 39.723.9 39. 39.8 39.739.9 39.5 39.8 39.739.9 39.6 39.8 39.839.9 39.5 39.9 39.839.9 39.5 39.9 39.839.9 39.5 39.9 39.839.9 39.5 39.8 39.739.9 39.5 39.8 39.739.9 39.5 39,3g09.839.9 39.5 39.8 39.739.9 39.5 39.8 39.7
39.9 39.5 39.9 39.839.9 39.5 39.8 39.739.9 39.5 39.9 39.839.9 39.5 39.B 39.739.9 39.5 39.7 39.7-40.0 39.5 39.9 39.840.0 39.6 39.9 39.839.9 39.6 39.9 3.839.9 39.6 3w9.9 39.840.0 39.5 39.8 39.840.0 39.5 39.8 39.840.0 39.5 39.9 39.940.0 39.6 39.9 39.840.0 39.6 39.9 39.840.0 39.5 33.9 39.839.9 39.6 39.8 39.839.3 39.6 39.9 39.840.0 39.5 39.9.39.340.0 39.6 40.0 39.9
AMPSIt I' TIME
21.70 21.55 13:5721.75 21.61 13:5821.70 21.56 13:5921.76 21.62 14:0021.70 21.57 14:0121.67 21.52 14:0221.66 21.52 14:0321.64 21.50 14:0421.75 21.60 14:0521.79 21.66 14:0621.79 21.66 14:0721.73 21.62 14:0821.76 21.63 14:0921.70 21.56 14:1021.75 21.63 14:1121.75 21.63 14:1221.76 21.64 14:1321.70 21.58 14:1421.70 21.58 14:1521.74 21.61 14:1621.74 21.61 14:1721.73 21.61 14:1821.72 21.59 14:1921.77 21.65 14:2021.73 21.61 14:2121.77 21.64 14:2221.66 21.53 14:2321.64 21.53 14:2421.70 21.57 14:2521.76 21.64 14:2621.71 21.59 14:2721.68 21.57 14:2821.60 21.50 14:2921.68 21.57 14:3021.74 21.63 14:3121.75 21.65 14:3221.72 21.61 14:3321.73 21.62 14:3421.76 21.65 14:3521.74 21.62 14:3621.75 21.64 14:3721.84 21.71 14:3821.62 21.69 14:3921.62 21.50 14:4021.68 21.55 14:4121.67 21.54 14:4221.67 21.55 14:4321.62 21.52 14:4421.63 21.53 14:4521.64 21.55 14:4621.66 21.53 14:4721.64 21.52 14:4821.67 21.55 14:4921.60 21.49 14:5021.62 21.52 14:5121.65 21.53 .14:5221.62 21.50 14:5321.68 21.56 14:5421.66 21.54 14:5521.68 21.57 14:56
COMMENTS
Tested By nt ,9 eDate n2-?o-13 Reyiewed By I D ate J__.2/_ 7__
12-20-1993
AMPACITY TEST. JOB NUMBER 94-0357.E- 17 -
SAMPLE NUMBER 94-0357-03 DATA FILE C:\940357\24C663M.001 12-20-1993
POSITION I POSITION 2 POSITION 3
Tlax Tlan T2nx T2an T3nx T3an
69.4 64.689.5 84.989.5 84.289.5 83.989.4 84.689.4 84.289.4 83.9899.4 84.189.4 84.289.4 84.989.4 84.389.4 83.989.4 84.089.4 84.289.4 84.389.4 83.989.4 84.589.4 84.289.4 84.889.4 84.389.4 84.589.4 83.989.4 84.189.4 84.589.4 84.889.3 83.889.3 84.189.3 83.789.3 34.289.3 84.689.3 83.989.3 83.989.3 83.889.3 83.889.3 84.589.3 84.589.3 84.289.3 84.789.3 84.483.3 84.789.3 84.889.3 84.089.3 83.989.3 84.589.3 84.889.3 83.889.3 83.789.3 84.289.3 84.189.3 84.189.3 84.689.3 84.689.3 84.089.3 84.189.3 84.489.3 83.889.3 84.489.3 84.489.3 83.889.3 84.8
90.4 c.190.4 85.190.4 85.190.4 85.190.4 85.190.4 85.190.4 85.190.4 85.190.4 85.190.4 85.190.4 85.190.4 85.190.4 85.190.3 85.190.4 85.190.4 85.190.3 85.190.4 85.190.4 85.190.4 85.190.4 85.190.4 85.190.3 85.190.4 85.190.4 95.190.3 85.190.4 85.190.4 85.190.3 85.190.4 85.190.3 85.190.3 85.190.4 85.190.3 85.190.3 85. 190.4 85.190.4 85.190.3 85.190.3 85.130.4 85.190.3 85.190.3 85.190.4 85.190.3 85.190.3 85.190.4 85.190.3 85.190.3 85.190.3 85.190.3 85.190.3 85.190.3 85.190.3 85.190.3 85.190.3 85.190.3 85.190.3 85.190.3 85.190.4 85.190.3 85.1
,9. 84.;90.5 84.690.5 84.690.5 84.790.5 84.790.4 84.790.5 84.790.5 84.790. 5 84.790.5 84.790.5 84.790.5 84.790.5 84.790.5 84.790.5 84.790.5 84.790.5 84.790.5 84.790.5 84.790.5 84.790.5 84.790.5 84.790.5 84.790.5 84.790.5 84.790.5 84.790.5 84.790.5 84.730.5 84.790.5 84.790.5 84.790.5 84.790.5 84.790.5 84.790.5 84.790.5 84.890.5 84.790.5 84.790.5 84.790.5 84.790.5 84.790.5 84.790.5 84.790.5 84.790.5 84.790.5 84.790.5 84.79'0.5 84.790.5 84.790.5 84.790.5 84.790.5 84.790.5 84.790.5 84.790. 5 84.790. 5 84.790.5 84.790.5 84.890.5 84.890.5 84.8
-POSITION AVERAGES-Tlavg T2avg T3avg
c6. 5786.6386.5386.5186.5686.51b6.4686.4786.4986.5786.5086.4586.4486.4986.4786.4386.5086.4686.5486.4786.5086.4386.4586.4786.5386.3886.4386.3586.4086.4586.3886.3886.3686.3686.4586.4586.3986.4466.4386.4486.4686.3686.3486.4386.4686.3486.3186.3986.3686.3686.4386.4386.3686.3886.4086.3166.4086.4086.3486.45
67. !187.2187.2187.2287.2187.2287.2187.2287.2287.2187.2287.2287.2287.2087.2287.2287.2187.2187.2187.2187.2087.21'87.2187.2187.2187.2187.2187.2287.1987.2187.2087.2087.2287.2187.2087.2287.2187.1987.2087.2287,'087.2187.2287.2087.2087.2287.2087.2087.2087.1987.1987.2087.1987.2087.2087.2087.2087.1987.2187.19
67. 4487.4087.4587.4487.4787.4387.5087.4987.5087. 4987.4987.5387.5187.4387.4987.5187.5397.4787.5187.5087.4687.4487.4987.4487.4487.5187.5087.5087.5087.4787.4987.5487.5487.5487.5487.5487.4787.4587.5487.5087.4687.5387.5387.5087.4687.5487.5587.5387.5487.4687.4787.4987.5387.5487.5187.5187.5087.5187.5587.50
AVG'Twave
67.0787.'0887.0687.0687.0887.0587.0687.0687.0787.0967.0787.0787.0687.0487.0687.0587.0887.0587. 0987.0687.0587.0387.0587.0487.0687.0387.0587,0387.0387.0587.0287.0487.0437.0487.0687.0787.0387.0387.0537.0587.0487.0387.0387.0487.0487.0387.0287.0487.0387.0097.0337.0487.0387.0487.0487.0187.0387.0387.0387.05
AMBIENT TEMPERATURE
SLOPE Tatl Taa2 Tas3 Taav
0.03 40.0 39.6 39.9 39.8
0.03 39.9 39.6 39.8 39.80.02 40.0 39.6 39.9 39.80.02 39.9 39.6 39.9 39.80.02 40.0 39.6 39.9 39.30.02 40.0 39.6 39.9 39.80.01 40.1 39.6 40.0 39.30.01 40.0 39.6 39.9 39.80.01 40.0 39.7 39.8 39.80.01 40.1 39.7 39.9 39.90.00 40.1 33.6 39.8 39.80.00 40.1 39.7 40.0 39.9-0.00 40.0 33.7 40.0 39.8-0.01 40.03 39.6 39.8 39.8-0.01 40.1 39.6 40.0 39.9-0.01 40.1 39.6 40.0 39.9-0.02 40.1 39.6 39.9 39.9-0.02 40.1 39.6 40.1 39.9-0.02 40.0 39.7 40.0 39.9-0.02 40.1 39.6 39.8 39.9-0.03 40.1 39.6 40.0 39.9-0.03 40.1 39.7 40.1 40.0-0.03 40.1 39.7 40.0 39.9-0.03 40.1 39.7 40.0 39.9-0.03 40.1 39.7 40.0 39.9-0.03 40.1 39.7 40.0 39.9-0.04 40.1 39.7 40.1 40.0-0.04 40.1 39.6 40.0 39.9-0.05 40.1 39.7 40.0 39.9-0.05 40.2 39.7 40.1 40.0-0.05 40.1 39.7 40.1 40.0-0.05 40.1 39.7 39.9 39.0-0.05 40.1 39.7 40.0 39.9-0.05 40.1 39.7 40.0 39.9-0.05 40.1 39.7 40.1 40.0-0.05 40.1 39.7 40.0 39.9-0.06 40.2 39.7 40.0 40.0-0.05 40.1 39.7 40.1 40.0-0.06 40.0 39.8 40.1 40.0-0.06 40.1 39.7 40.0 39.9-0.06 40.2 39.8 40.1 40.0-0.06 40.1 39.7 39.9 39.9-0.06 40.1 39.7 40.1 40.0-0.06 40.1 39.7 40.0 39.9-0.05 40.0 39.7 40.1 39.0-0.05 40.2 39.7 40.1 40.0-0.05 40.1 39.7 40.0 39.9-0.05 40.2 39.7 40.1 40.0-0.05 40.2 39.7 40.1 40.0-0.06 40.1 39.8 40.1 40.0-0.05 40.2 39.7 40.0 40.0-0.05 40.2 39.8 40.1 40.0-0.05 40.2 39.8 40.1 40.0-0.05 40.2 39.8 40.1 40.0-0,05 40.2 39.8 40.1 40.0-0.05 40.2 39.8 40.2 40.1-0.05 40.2 39.8 40.1 40.0-0.05 40.2 39.8 40.2 40.0-0.05 40.3 39.8 40.0 40.0
AMPSIt I' TIME
-1.60 21.O i4:5721.63 21.52 14:5821.64 21.52 14:5921.71 21.60 15:0021.74 21.62 15:0121.52 21.41 15:0221.54 21.42 15:0321.52 21.42 15:0421.52 21.41 15:0521.52 21.41 15:0621.51 21.42 15:0721.53 21.42 15:0821.5B 21.50 15:0921.54 21.46 15:1021.55 21.44 15:1121.60 21.51 15:1221.63 21.55 15:1321.56 21.46 15:1421.59 21.51 15:1521.58 21.49 15:1621.56 21.45 15:1721.50 21.41 15:1821.52 21.46 15:1921.53 21.44 15:2021.54 21.45 15:2121.57 21.50 15:2221.55 21.46 15:2321.59 21.51 15:2421.52 21.44 15:2521.63 21.55 15:2621.57 2 15:2721.60 2154 15:2821.55 21.45 15:2921.56 21.49 15:3021.55 21.48 15:3121.55 21.47 15:3221.57 21.48 15:3321.51 21.45 15:3421.54 21.48 15:3521.52 21.44 15:3621.60 21.54 15:3721.57 21.52 15:3821.63 21.53 15:3921.60 21.53 15:40?1.43 21.36 15:4121.52 21.43 15:4221.56 21.51 15:43'21.56 21.50 15:4421.69 21.63 15:4521.65 21.53 15:4621.59 21.54 15:4721.50 21.43 15:4821.52 21.47 15:49
21.54 21.49 15:5021.57 21.52 15:5121.57 21.52 15:5221.58 21.54 15:53
21.62 21.57 15:5421.60 21.53 15:5521.56 21.51 15:56
COMMENTS
TDaetBe y Dt f? Reviewed By Date '2 Z'43Tested By/'l S~
AMPACITY TEST. JOB NUMBER 94-0357. SAMPLE NUMBER 94-0357-03 DATA FILE C:\940357\24C663M.001 12-20-1993
POSITION I POSITION 2 POSITION 3 -POSITION AVERAGES- AVG AMBIENT TEMPERATURE AMPSTiax TIAn T2ax T2mn T3mx T3mn Tlavg T2avg T3avg Twave SLOPE Taal Ta&2 Tam3 Taay it I' TIME
89.2 84.6 90.3 85.1 90.5 84.7 86.41 87.20 87.51 87.04 -0.04 40.1 39.8 40.0 40.0 21.55 21.49 15:5789.2 83.8 90.4 85.1 90.5 84.8 86.30 87.221 87.59 87.04 -0.04 40.12 39.8 40.1 40.0 21.70 2.63 15:58
892 8. 048. 05 8. 63 72 875470i00 013984. 00 2.72.59 15:5"989.3 84,7 90.3 85.1 90.5 84.7 86.44 87.20 87.49 87.04 -0.04 40.2 349.8 40.0 40.0 21.637215 16089.3 84.7 90.3 85.1 90.5 84.8 86.31 87.19 87.57 87.03 -0.04 40.3 39.8 40.0 40.0 21. 60 21.56 16:0183.3 84.4 90.3 85.1 '30.5 84.8 86.39 87.20 87.51 87.03 -0.04 40.3 39.98 40.1 40.1 21.64 21.61 16:0289.2 84.5 90.3 85.1 90.5 84.8 86.39 87.20 87.55 87.05 -0.04 40.3 39.9 40.1 40.1 21.61 21.58 16:0389.3 84.7 90.3 85.1 90.5 84.8 86.44 87.20 87.53 87.05 -0.03 40.3 39.8 40.2 40.1 21.58 21.58 16:0489.2 83.8 90.3 85.1 90.5 84.8 86.30 87.21 87.54 87.02 -0.03 40.3 39.9 40.2 40.1 21.58 21.55 16:0589.3 84.1 90.3 85.! 90.6 84.8 86.34 87.218 87.60 87.04 -0.03 40.3 39.9 40.1 40.1 21.60 21.57 16:0689.2 84.3 90.3 85.1 90.6 84.8 86.35 87.16 87.57 87.03 -0.03 40.3 39.9 40.1 40.1 21.57 21.54 16:0789.2 84.7 90.3 85.1 90.5 84.8 86.41 87.19 87.55 87.05. -0.02 40.2 40.0 40.2 40.1 21.59 21.57 16:0889.2 84.5 90.3 85.1 90.5 84.8 86.39 87.19 87.54 87.04. -0.02 40.2 39.9 40.2'L 40.1 21.54 21.51 16:0989.2 84.4 '30.3 85.1 90.5 84.8 86.38 87.20 87.56 87.05 -0.02 40.3 39.9 40.2 40.1 21.57 21.55 16:0989.3 83.8 90.3 85 .1 90.6 84.8 86.31 87.19 87.59 87.03 -0.02 40.2 39.9 40.12 40.1 21.51 21.47 16:1189.2 83.9 90.3 85.1 '30.6 84.8 86.30 87.16 87.59 87.02 -0.02 40.3 39.8 40.2 40.1 21.57 211.43 16:1289. 2 84.8 90.3 85.1 90.6 84.8 86.43 87.18 87.59 87.06 -0.01 40.2 39.8 40.1 40.0 21.69 21.64 16: 1389.3 84.6 90.3 85.1 90.6 84.8 86.43 87.13 87.54 87.05 -0.01 40.3 39.8 40.2 40.01 21.70 21.67 16:14892 8.Q038. 06 8. 63 871 8.74 70 -0.01 40.2 39.8 40.1 40.0 21 .73 21.68 16:1489.2 84.5 90.3 85.1 90.5 84.3 86.36 87.18 87.55 87.03 -00L033. 014. 16 215b 6189.3 84.8 90.30 85.1 90.6 84.8 86.432 87.19 87.55 87.05 -0.00 40.3 39.9 40.0 40.1 21.70 21.66 16:1789.3 84.4 90.3 85.1 90.5 84.8 86.39 87.18 87.56 87.04 -0.00 40.3 39.9 40.1 40.1 2 1 .621 21.59 16:1889.3 84.8 90.3 85.1 90.6 84.8 86.439 87.19 87.57 .87.05 -0.00 40.31 39.9 40.2 40.1 211.68 21.65 16:19789.3 84.5 90.3 85.1 90. 6 84.8 86.41 87.19 87.560 87.07 -0.00 40.3 39.9 40.2 40.1 21.66 I 2.64 16:2089.3 84.1 90.3 85.1 90.6 84.8 86.35 87.219 87.61 87.06 -0.01 40.3 39F. 940.1 40.1 21.64 21.61 16:21989.3 84.5 90.3 85.2 90.6 84.8 86.43 87.219 87.57 87.07 0.01 40.3 39.9 40.2 40.1 21.63 21.60 18:2289.3 84.0 90. 3 85.1 90.6 84.8 86.35 87.20 87.63 87.06 0.01 40.2 40.0 40.2 40.1 21.64 21.62 16:23893.3 84.5 90.3 85.12 90.6 84.8 86.41 87 .219 87.60 87.07 0.01 40.3 39.9 40.2 40.1 2161 21.58 1 6:289.2; 84.4 90.3 85.1 90.6 84.8 86.39 87.19 87.61 87.06 0.01 40.3 39.9 40.2 40.1 21.57 21I.54 16:2589.2 84.5 90.3 85.1 90.6 84.8 86.40 87.19 87.57 87.05 0.02 40.2 39.9 40. 2 40.1 21.58 621.55s 16:26489.2 84.4 90.3 85.1 90.6 84.8 86.38 87.16 87.561 87.03 0.01 40.3 39.9 40.2 40.1 21. 57 21I. 54 16:2789.3 84.7 90.3 85.1 90.6 84.8 86.43 87.18 87.59 87.06 0.02 40.2 39.8 40.2. 40.1 21I.678 21.63 16:2889.2 83.9 90. 3 85.1 90.6 84.8 86.31 87.19 87.561 87.04 0.02 40.4 39.9 40.1 40.1 21.57 21.52 16:2989.2) 84.7390.3 85.1 90.6 84.8 86.438 87.16 87.63 87.05 0.02 40.2 39.9 40.3L 40.1 ~21.65 '21. 62 16:3089.2 84.1 90.3 8S5.1 90.6 84.8 86.35 87.15 87.61 87.04 0.02 40.2 39.9 40.1 40.1 21.59 21.55 16:3189.21 84.14 90.3 85.1 90.6 84.8 86.35 87.15 87.57 87.03 0.02 40.3 39.8 40.2 40.1 21. 63 521.59 16:3289.3 84.2 90.3 85.1 90.6 84.8 86.38 87.18 87.61 87.05 0.02 40.2 39.8 40.2 40.1 21.59 21.55 16c: 338. 845 9. 851 9. 848 8.0 8.8 8.3 8.7 00 40. 3994.u01 16 16 16389.3 84.8 90.3 85.1 90.6 84.8 86.45 87.18 87.64 87.09 0.03 40.3 39.9 40.1 40.1 221.61 21.58 16:35~89.3 84.8 90.3 85.1 90.6 84.8 86.46 87.15 87.61 87.08 0.03 40.23.3 40.0 40.2 40. )2. 59 21.57 16:3689.2 84.8 90.3 85.1 90.6 84.8 86.45 87.18 87.61 87.08 0.04 40.3 40.0 40.1 40.1 2L.81.421.651 16:'37'489.3 84.0 90.3 85.1 90.6 84.9 86.36 87.19 87.68 87.08 0.04 40.3 40.0 40.2 40.2 21.57 21.55 16:3899. 3 84.3 90.3 85.1 90.6 84.8 86.40 87.18 87.64 87.07 0.04 40.3 3. 40. 2 40.1 40 2 1.58 21I.567 16:3989.3 84.1 90.3 85.1 90.6 84.9 86.36 87.18687.68 87.07 0.04 40.2 30.9 40.0 40.0 2.1.54 21.49l 16:40789.2 84.04 90. 3 85.1 90.6 84.8 86.38 87.15 87.61 87.05 0.04 40.3 39.9 40.1 40.1 21.61 2.58 16:4189.3 84.5 90.3 85.1 90.6 84.8 86.40 87.15 87.61 87.05 0.04 40.3 39.9 40.1 40. 1 .21.62 21.59 16:4289.23 84.1 90.3 85.1 90.6 84.9 86.35 87.15 87.64 87.05 0.04 40.3 39.9 40.2 40.1 21.62 21.60 16:4389.32 84.7 90.3 85.1 90.6 84.9 86.44 87.15 87.60 87.06 0.04 40.2 39.8 40.2 40.1 21.58 21.54 16:44893.21 84.4 90.3 85.1 90.6 84.9 86.39 87.15 87.63 87.05 0.04 40.3 39.8 40.1 40.1 21I.61 21 .57 16:45)89.3 84.4 90.3 85.1 '30.6 84.9 86.40 87.15 87.64 87.06 0.04 40.2 39.8 40.1 40.0 21.62 2 1.57 16:46)89.2 84.6 90.3 85. 1 90.6 84.9 86.44 87.15 87.64 87.07' 0.04 40.3 39.8 40.1 40.1 21I.6 5 21.63 16:4789.2 84.4 90.3 85.1 90.6 84.9 86.49 87.15 87.63T 87.06 0.04 40.2 319.8 40.2 40.1 21I.5 2 A1.54 16:48293 8. 038. 06 84.9 86'.36 8715 76 70 .44. 994. 40 1 6216 21 .56 16:4989.3 84.7 90.3 85.1 90.6 49 64 87.15 87.64 87.08 0.04 40. 39.9 40.2 40.1 2.0 21i. 57 16589.3 84.8 90.3 85.1 90. 684.9 86.45 87.15 87.63 87.07 0.04 40.3 39.8 40.2 40.1 21.64 21.61 16:5189.2 84.3 90. 3 85 .1 90.6' 84.9 86.39 87.15 87.066 87.07 0.04 40.3 39.8 40.3'4 40.1 21.68 21.65 16:5289.3 84.1490. 3 85.1 90.6 84.9 86.43 87.15 87.69 87.09 0.04 40.3 39.89 40.2 40.11 211.57 21.546 1 6:53'89.3 84.8 90.3 85.1 90.6 84.9 86.44 87.15 87.64 87.07 0.04 40.32 39.9 40.3 40.2 2.5 2o ;1.53 16: 5489.3 84.8 90.3 85.1 90.6 84.9 86.45 87.15j 87.653 87.08 0.04 40.3 39.9 40.2.4 0.1 215I2.5 65
89.2 84.9 90.3 85.1 90.6 84.9 86.47 87.15 87.63 87.08 0.04 40.3 39.9 40.2 40.1 ;21.53,~ 21. 51J 16:56n
COMMENTS
Tested ByMa Date , Reviewed By -Date I-D -2a
F-1
Photograph 1 - Thermocouple embedded in the conductor.
Photograph 2 - Current source used to energize the cable.
F-2
Photograph 3 - 3M Fire Barrier Wrap staggered circumferential joints.
Photograph 4 - Five layers of 3M Fire Barrier Wrap.
0 ,
F-3
l. | I l
Photograph 5 - End of a test sample showing the end of the 3M Fire BarrierWrap.
Photograph 6 - Bare conduit in the test enclosure.
-; 4
Photograph 7 - Air drop configuration suspended from the ceiling.
Photograph 8 - Conduit covered with 3M fire barrier wrap. Showsorientation in the test enclosure.
I6��Y4,V�
t
In
j'iI
F-5
Photograph 9 - Large Air Drop configuration. One layer ofWrap. Orientation of sample in the test enclosure.
3M Fire Barrier
B. . j. . X, in.
t ' 'S . .
He
:"'.''"
0,-.'.,r. . I
1 t
- j :
.NW. ...
g An,-',.,
.C.; o an
: f . .,1Zz .,
., E. ,,. . L.
Photograph 10 - Small Air Drop with 3M Fire Barrier Wrap showingorientation in the test enclosure.
G-1
Notice of AnomalyDate: 12-2-93
Job No: 94-0357
Notice No.: I4 -0o05 Initiated by: C.L. RutledgeCustomer: WRN
Notification Made To: 'Rill Roop Date: 12-02-93Notification Made By: c. T.. Rutledge Via:, Voice Mail
Nature of Anomaly: Specimen - Procedure X Instrumentation
Test Fixture
Date of Anomaly: 12-02-93 I.D. No.: ___o_5__3
Part Name: FJLke bee; Loger Part No.: z z 4-Z3
Test: "WBN Cable Ampacity for 3M Material"
-------------------------------------------------------------------------------
Requirements: Perform as found test on test equipment after thetest.
RelerJe,,rce, q 017 CLR 32 -4.9
Description of Anomaly: Thermocouples on Channels 20 and 23 broke
when the #10 WG cable was removed from conduit to perform the
air drop test.
Comments and Recommendation: Remake the bead and recalibrate thethermocouple before proceeding with the. test.-Channels 16 and18 broke prior to beginning the test. Theywill be repairedalso and six thermocouples will be added to the data logger toensure sufficient spares.
Disposition: 5') ('O>{/Ce e Gi/r4 C5'Z &'rj7
41 taz zesCa 4'7o,o*
Project Engineer Date - ? QA/QC Supervisory. QgoIDatekq-3 -95
Engg Svcs Sup /Dateg@ Customer Approvaale-,>,2.7/Date ./-z#/34'j /r -, /i -/I e /
G-2
Notice of Anomaly
Notice No.: 9, -[c.)o C.Customer: WRN
Notification Made To:Notification Made By:
Initiated by:
Date: 12-7-93Job No: 94-0357
C.L. Rutledge
Date: 12-05-93Via:, Voice Mail
Nature of Anomaly: _ Specimen _ Procedure X Instrumentation
Test Fixture
Date of Anomaly:Part Name:
12-05-93Specimen 94-0357-2
Test: "WBN Testing to Determine Ampacity Derating Factor for3M Fire Barrier Wrapped Conduits and Air Drops"
Requirements: Obtain surface temperature of the bare cable.
Description of Anomaly: One surface temperature T/C fell off and
the other T/C was not tight against the specimen.
Comments and Recommendation: The thermocouples were attached to thecable after the three hour run but while the cable was stillin equilibrium. The values obtained were 66.5 OC and 68.5 0 C.Recommend accepting the three hour test run. Also accept thevalues obtained for the surface temperature as representativeof the surface temperature throughout the test period.
Disposition: i fe - u : ' 4 f A"
-------------------------------------------------------------------------------
Project Engineer 4 e s A/QC Supervi sor /Date la 7-:3
Engg Svcs Sup Date/ S M Customer Approval z /Date -z.7-fe/ I
Ri I1 1 RonC T. RRItl edge
I.D. No.:Part No.:
7 V
.... - -
G-3.age 1 Of 2
Notice of ±LionialyDate: 12-7-93
Job No: 94-0357
Notice No.: 7_ _ _ __ Initiated by: C.T. Rutledge
Customer: WRN
Notification Made To: Rill Rinopicr-7T Piercep Date: 12-07-93Notification Made By: r T Ru Pz-dgp Via: Voice Mai I
Nature of Anomaly: Specimen - Procedure X Instrumentation
Test Fixture
Date of Anomaly: 12-07-93 I.D. No.:Part Name: Specimen 94-0357-1 Part No.:
with 3MTest: "WBN Testing to Determine Ampacity Derating Factor for3M Fire Barrier Wrapped Conduits and Air Drops"
-------------------------------------------------------------------------------
Requirements: Acquire the temperatures for the cable at one
minute intervals.
Description of Anomaly: Some data appeared to be unstable. See
attached page for example.
The glitch was caused by some other testing, forComm~ients and Recommendation: __________________________
Job 94-0481, being performed in the area. The other testing was causingpower transients. Recommend using a UPS to power the data logger ordelaying the test until the interferring test is completed. The datashows obvious transients and the three hour period will be restarted if
this should happen.Disposition:. a, tozpnJ
--------------------------------------------------------------------------
Project Engin /QC Supervisor; *rA\ \ /Date i;-e-.q3
Engg Svcs Supv X /DatejAi Customer Approval A., -~/Date hz-r-73v
Page 2 of 2
AMPACnIOr ---- NUMBER 94-0357.G-4
SAMPLE NUMBER 94-0357-01 DATA FILE C:\940357\4C1063M.002
RITION I POSITION 2 POSITION 3 POSITION AVE AV6 AMBIENT TEMPERATUREI T22 T23 T24 T25 T33 T27 T32 T29 T30 T31 Ti T2 T3 Twave SLOPE Tail Tam2 Tas3 Taav
89.989.990. 089.989.990.197.2AP I
90.1 8a.390g 1 88.4o, 2 88.5
90.2 88.490.1 88.490.1 88.287.3 88.5
21AA_? 81.
89.0 88.489.0 88.489.1 88.489.0 88.489.1 88.598.5 78.488.9 83.81 89,2 8P.
89.7 89.9 87.4 89.5 91.6 90.3 89.8 89.389.8 89.8 87.4 89.1 91.7 90.3 89.9 89.383.7 89.9 87.5 89.5 91.8 90.2 89.9 89.489.8 90.0 87.5 89.4 91.7 90.2 89.8 89.489.8 89.9 a7,4 89.2 91.7 90.4 90.0 89.490.0 89.8 87.4 91.8 92.9 99.7 79.9 91.787.1 90.1 87.6 89.8 91.6 89.9 84.7 90.53 89.7 89.9 79.1 93.1 94.5 ql R80 .4 89.
88.888.988.988.988.986.4
87.2A PA
90.390.390.390.390 391.189.0A R9.
89i.4989.4889.5689.5389.5389.7388.38q AR. V
8 8! 8.7 7995 9.8 94.5 91.8 s3 19 7.0 031.8 88.7 88.8 89.7684.4 90.0 88.1 86.0 84.2 90.9 89.9 87.3 89.5 91.5 87.4 86.0 87.1 88.1 88.6 87.9389.8 90.1 88.5 89.2 88.5 89.8 90.0 87.4 89.3 91.8 90.5 89.9 89.4 88.9 90.4 89.5790.0 90.3 88 5 89.1 88.5 89.9 90.1 87.6 89.5 91.9 90.3 89.9 89.5 89.0 90.4 89.6390.0 90.3 88.7 89.3 88.5 89.8 90.1 87.6 83.3 92.0 90.4 89.9 89.6 89.0 90.4 89.6690.1 90.2 88.7 89.4 88.6 89.9 90.2 87.6 89.3 92.0 90.6 90.0 89.6 89.1 90.5 89.7290.2 90.3 88.6 89.4 88.7 30.0 90.1 87.6 89.6 92.0 90.7 90.2 89.6 89.1 90.6 89.7890.2 90.3 88.8 89.5 88.7 89.9 90.2 87.6 89.5 92.1 90.7 90.1 89.7 89.1 90.6 89.8090.2 90.4 s8.7 S9.3 88.7 90.1 90.1 87.7 89.6 92.0 90.6 90.2 89.7 89.1 90.6.89.8090.3 90.5 88.7 89.3 88.7 90.1 90.2 87.7 89.7 92.0 90.6 90.2 89.7 89.2 90.6 89.83
90.2 90.4 88.s9 89.5 88.7 '30.0 90.3 87.7 89.8 92.2 90.6 90.2 89.8 89.2 90.7 89.8890.3 90.5 88.7 89.4 88.8 90.2 90.2 87.8 89.6 92.1 90.7 90.3 89.7 89.3.90.7 89.8890.3 90.5 88.9 89.5 88.8 90.0 90.3 87.8 89.6 92.2 90.7 90.1 89.8 89.2 90.6 89.8990.4 90.6 88.9 89.5 88.9 90.3 90.3 87.989.9 92 .2 90.7 90.3 89.8 89.4 90.8 89.9990.4 90.7 88.9 89.5 88.8 90.2 90.4 87.9 89.8 92.2 90.6 90.3 89.9 89.3 90.7 83.9790.4 90.5 88.8 89.6 88.9 90.3 90.3 87.8 89.9 92.2 90.9 90.4 89.8 89.3 90.8 90.0090.4 90.5 89.0 89.7 88.9 90.1 90.3 87.3 89.7 92.3 91.0 90.4 89.9 89.3 90.8 90.0190.5 90.6 88.9 89.7 89.0 90.3 90.4 87.9 89.8 92.3 91.0 90.4 89.9 89.4 90.9 90.0790,5 90.7 89.1 89.7 88.9 90.2 90.4 87.9 89.9 92.4 90.9 90.4 90.0 89.3 90.9 90.0890.6 90.7 89.0 89.7 89.0 90.4 90.5 88.0 90.0 92.3 90.9 90.5 90.0 89.5 90.9 90.13,90.6 90.8 89.0 89.7 89.0 90.4 90.4 88.0 89.9 92.3 91.0 90.5 90.0 89.4 90.9 90.1330.6 90.9 89.2 89.7 89.0 90.4 90.5 88.1 90.0 92.5 90.8 90.4 90.1 89.5 90.9 90.1890.g 2Q. 89.1 89.7 89.0 90.5 90.5 88.1 90.1 92.4 90.9 90.5 90.1 89.5 91.0 90.189 - 89.2 99.8 89.0 90.4 90.6 88.1 90.1 92.5 90.9 90.4 90.1 89.5 91. 90.2190 89.1 89.7 89.1 90.5 30.6 88.1 90.1 92.5 91.0 90.6 90.1 89.6 91.1 90.2390-8 89.2 89.9 89.1 00.4 90.7 88.1 90.2 92.6 91.1 90.6 90.1'89.6 91.1 90.2890.7 90.8 89.1 89.8 89.2 9O.5 90.7 88.1 90.0 92.5 91.2 90.6 90.1 89.6 91.1 90.2790.7 90.8 89.2 89.9 89.2 9O.5 90.6 88.1 90.1 92.6 91.3 90.8 90.2 89.6 91.2 90.3290.7 90.9 89.2 893.9 89.3 905 90.6 88.1 90.1 92.6 31.3 90.7 90.2 89.6 91.2 90.3390.8 90.9 89.2 30.0 89.3 90.5 90.6 88.1 90.1 92.6-91.3 90.9 90.2 89.6 91.2 90.3590.8 90.9 89.3 90.0 s8.3 90.5 90.6 88.1 0.1 9 2.6 9L.3 90.8 90.3 89.6 91.2 90.3690.8 90.9 89.3 90.0 89.3 90.5 907 88.1 90.2 92;6 91.3 90.8 90.3 89.7 91.2 90.3830.8 91.0 89.4 90.1. 89.3 90.5 90.8 88.2 90.3 32.7 91.3 90.7 90.3 89.7 91.3 90.4290.8 90.9 89.3 90.1 8.3 .o5 90.7 88.2 90.2 92.7 91.4 90.9 90.3 89.7.91.3 90.4290.9 91.1 89.5 90.1 89.3 90.6 90.9 88.3 90.4 92.8 91.2 90.8 90.4 89.8 91.3 90.4930.9 91.1 89.3 90.0 89.3 90.7 90.7 88.3 90.1 92.7 91.3 9 0.3 90.3 89.8 91.3 90.4490.9 91.1 89.4 90.0 89.3 90.7 90.8 88.4 90.4 92.7 91.2 90.9 90.3 89.8 91.3 90.4890.9 91.0 89.3 90.1 89.4 90.7 90.8 88.3 90.4 92.7 91.4 90.9 90.3 89.8 91.3 90.4990.9 91.1 89.5 90.2 89.4 90.6 90.9 88.3 90.3 92.8 31.4 90.8 90.4 89.8 91.3 90.5231.0 91.2 89.5 30.1 89.3 90.6 90.9 88.4 90.2 92.9 91.3 90.8 30.4 89.8 91.3 90.52911. 1 91.2 39.5 '30.1 89.4 90.8 91.0 88,5 90.5 92.a 31.3 90.9 90. 5 8.9 31.4 90.5991.0 91.2 89.5 90.l 89.4 90.8 91.0 88.5 90.5 92.8 91.2 90.9 90,.4 89.9 91.4 90.583 9.0 91.3 89.6 90.1 89.4 30 . 91 .0 88. 90J.5 92. 91.3 90.8 90.5 83.9 91.4 90.6091.1 91.3 89.6 90.2 89.4 90.8 91.0 88.5 90.4 92.9 91.3 90.8 90.6 89.9 91.4 90.61?1.1 91.2 89.6 90.3 89.5 90.7 91.0 88.4 90.5 93.0 91.6 91.0 90.6 89.9 91.5 90.6691.1 91.4 89.7 90.2 89.5 90.8 91.1 88.60 90.5 93.0 91.4 90.9 90.6 90.0 91.4 90.68'31.2 931.4 9.7 390. 89.5 90.9 91.1 88.6 90.6 93.0 91.4 90.9 90.6 90.0 91.5 90.7191.2 91.4 89.7 90.3 89.6 91.0 91.1 88.7 90.6 93.0 91.4 91.0 90.7 90.1 91.5 90.7591.2 91.3 89.7 30.4 89.7 90.9 31.0 88.5 90.6 93.0 91.8 91.2 90.7 90.0 91.7 90.7891.2 91.3 89.7 30.4 89.7 90.9 91.0 88.5 90.5 93.1 91.8 91.2 90.7 90.0 91.7 90.7891.2 91.3 89.7 90.5 89.7 90.9 91.1 88.5 90.5 9. 91.8 91.2 90.7 90.1 91.7 90.7931.3 91.4 89.9 90.5 89.6 90.9 91.2 88.6 90.6 33.1 91.7 91.1 90.3 90.1 91.6 90.32
0.03 40.3 39.9 40.2 40.10.07 40.3 39.9 40.2 40.10.10 40.3 39.8 40.1 40.10.14 40.3 39.9 40.0 40.10.17 40.3 39.9 40.2 40.10,22 40.5 39.9 40.2 40.20.19 40.6 39.6 40.0 40.1
1 0.14 40.3 40.1 M9A 40.
12-07-1993
AMPSIt I'
24.02 24.0723.93 24.0023.S6 23.9023.80 23.8222.82 23.8723.7323.70 23.702 23.77 23.82
23.6423.9724.082 4 .05
COM ENT S
Date RevieeYed By Date
TIME
11:2711:2811:2911:3011:3111:3211:33
11:340.20 40.4 40.1 40.0 40.20.07 39.8 39.9 40.1 39.90.11 40.3 39.9 40.1 40.10.15 40.3 39.9 40.1 40.10.19 40.3 39.9 40.1 40.10.24 40.4 39.9 40.1 40.10.29 40.4 39.9 40.1 40.10.34 40.4 40.0 40.0 40.10.39 40.4 39.9 40.3 40,20.44 40.4 39.9 40.1 40.10.49 40.4 39.9 40.1 40.10.54 40.4 40.0 40.0 40.10.59 40.4 40.0 39.9 40.10.65 40.3 39.9 39.9 40.00.70 40.4 39.9 40.1 40.10.75 40.4 40.0 40.2 40.20.80 40.4 40.0 40.1 40.20.85 40.4 40.0 40.2 40.20.90 40.4 40.0 40.1 40.2.0.96 40.3 40.0 40.3 40.21.01 40.4 40.0 40.2 40.21.06 40.4 40.0 40.2 40.21.10 40.5 40.0 40.3 40.31.15 40.5 40.0 40.1 40.21.20 40.4 40.1 40.1 40.21.24 40.4 40.0 40.1 40.21.28 40.4 40.0 40.3 40.21.33 40.4 40.1 40.1 40.21.37 40.4 40.1 40.1 40.21.40 40.4 40.1 40.2 40.21.44 40.4 40.1 40.1 40.21.47 40.4 40.1 40.3 40.31.51 40.4 40.1 40.1 40.21.53 40.3 40.1 40.2 40.21.57 40.3 40.1 40.2 40.21.59 40.4 40.1 40.2 40.21.61 40.5 40.1 40.2 40.31.63 40.5 40.2 40.2 40.31.64 40.6 40.2 40.2 40.31.66 40.6 40., 40.3 40.41.67 40.6 40.1 40.4 40.41.68 40.6 40.1 40,4 40.41.63 40.7 40.2 40.4 40.41.69 40.5 40.1 40.5 40.41.69 40.6 40,2 40.5 40.41.69 40.6 40.2 40.4 40.41.69 40.7 40.2 40.4 40.41.68 40.6 40.2 40.5 40.41.67 40.7 40.2 40.3 40.41.66 40.7 40.2 40.4 40.41.64 40.7 40.2 40.5 40.51.62 40.7 tO.2 40.4 40.4
Tested By
23. 7923. 8423.9 424. 0824.0424.0223.96??23 933.8723.9223. 9623. 9424.0124.0'23. 9623. W9524.01
24.e0623. 9723. 9823. 9324 .0422.98324.0223.9723.93823. 9223.89123.98823.922j.90
23.95123.9823.9:223.89023.9023.972.91
23.96
'4.01.38
4.92 f . 32- KJ
LZJ.5
11:3511:3611:3711:38I1I :3911:4011:4111:4211:431 1:4411:4511:4611:4711: 4811:4911:5011:5111:5211:5311:5411:5511:5611:5711:5811:5591200
1l20112:02
12: 0312:0412:0512:0612:0712:0812:0312:1012:1 112:121 2:1 3
12: 1712:18
1 2) 4LIU12:24
12: 2
1 2:26
: - :
Notice of AiiomalyDate: 12-15-93
Job No: 94-0357
Notice No.: e '-c1o- Initiated by: C.L. RutledgeCustomer: WRN
Notification Made To: nave Rryson Date: 12-15-93Notification Made By: -e. T nRledge Via: Telephone
----------------------------------------- -----------------------------------
Nature of Anomaly: - Specimen X Procedure Instrumentation
-_ Test Fixture
Date of Anomaly: 12-15-93 I.D. No.:Part Name: Part No.:
Test: "WBN Testing to Determine Ampacity Derating Factor for3M Fire Barrier Wrapped Conduits and Air Drops"
---------------------------------------------- ---------------------------------
Requirements: Calculate the slope of the temperature vs. timeline.
. Description of Anomaly: Page B-1 of the test plan description for
X and Y was switched. The computer program correctly calculates
the slope. Reference page C-16 for the correct formula.
No action required. This anomaly is toComments and Recommendation:
document the correct formula is used in the computer program.
The correct formula has been used throughout the test series.
Disposition: , Z S < >24 ^ 2 zA -
----------------------------------------- --------------------------------------
Project Engineer z ° DateiŽ•-/&-wj A/QC Superviso o k , /Date la.-f-23
Engg Svcs Sup /Date/,- i Customer Approval 2 ' 1 Date /z//'/23
G-5
G-6
Notice of A nomalyDate: 12-16-93
Job No: 94-0357
Notice No.: ____-_____ Initiated by: C.L. Rutledge'Customer: WBN
Notification Made To: David Bryson Date: 12-16-93Notification Made By: c. L. Rutledge Via:, In person
- - - - - - - - - - - - - - - - - - - -------------- ------ - -- ------------
Nature of Anomaly: Specimen Procedure X Instrumentation
Test Fixture
Date of Anomaly: 12-16-93 I.D. No.: Rq S.3Part Name: Part No.: C
Test: "WBN Testing to Determine Ampacity Derating Factor for3M Fire Barrier Wrapped Conduits and Air Drops"-------------------------------------------------------------------------------
Requirements: Measure the conductor temperature at 24
locations.
Description of Anomaly: Two T/C were open at location 3, Channels
42 and 43 (Cables C and D) after installation of 3M fire wrap
on the large air drop specimen.
Comments and Recommendation: Replaced the thermocouples with differentthermocouples, Channels 34 (Cable C) and 37 (Cable D).
Disposition: R,5cgc1,4r 7 'pj-i- r/c 5'.rAGF 7-r ('prs h3 7he
3Ml FoR--R^ LAH¢g oo L 448p-a . r rAuRNif\s ArC elc L,~-PprJ I
AJ~e. 3M In RupI4cC4. t-o RAc- As ! 1 I'S & ctfy-,7 'o AFT~) ~ #4 rZttoPke-1 c4 144.v,, 4- Re-a-e Al) L4ye,-s Ar,,4,, SL.Aci f
Project Enginee 4,ZL&D^+/ate >et2tCSuperv iso z~%-I 2"Date I 1-l7 -9
Engg Svcs Supv a t /Oate A417 ,3 Customer Approval; L4I. 4,4Date e/
@~~~~~~~~~ A F~TH/e ~cc JS+ 4 2"'k y 0 4g 44' a-ree' I S / 5,Wt
2 7 -1gc < k 4 ./ ,n, l -14e.5 7 /7"So,$^ 4,,,1 ',,,z, x sfibeF <ee
/
G-7
rNot~ice of AnlomalyDate: 12-21-93
Job No: 94-0357
Notice No.: - O I C) Initiated by: C.L. Rutledge
Customer: WRN
Notification Made To: J. J. Pierce Date: 12-21-93
Notification Made By: C. L. Rutledge Via: In. person
------------------------------------------------------------
Nature of Anomaly: Specimen Procedure x Instrumentation
Test Fixture
Date of Anomaly: 12-21-93 I.D. No.:
Part Name: Thermocouple Ch 29 Part No.:
Test: "WBN Testing to Determine Ampacity Derating Factor. for
3M Fire Barrier Wrapped Conduits and Air Drops"
-------------------------------------------------------------------------------
Requirements: Obtain the temperature of each conductor in three
locations.
Description of Anomaly: The thermocouple bead broke for Channel 29
Location 3, white conductor.
Comments and Recommendation: Replace the thermocouple with another one.
Do not perform as found test for the broken thermcouple.
Disposition: 7•catd, vie g4.aes. / ' 7/1eb1 n
&..'4,brA4ed~ ter-,~otCPi.o/e 7l tic 1 h¢ 7Le >v- /ocah 3. Vg,71,/A
k JQC Supervisor
Customer Approva
G-8
Page 1 of 2 Notice of Anomaly
Notice No.: 9q -o o I11Customer: WBN
Notification Made To:Notification Made By:
Nature of Anomaly:
Dave Brvson
Initiated by:
C. L. Rutledae
Specimen - Procedure
Date: 1-28-94Job No: 94-0357
C.L. Rutledge
Date: 1-2 8-94
Via:, Voice Mail
----------------------
X Instrumentation
Date of AnonPart Name:
Test:
Test Fixture
ialy: 1-28-94 I.D. No.: ' 9 oSp890593 r, 7k;4 Part No.: -_ I A
Zo5,3er
"WBN Testing to Determine Ampacity Derating Factor for3M Fire Barrier Wrapped Conduits and Air Drops"
--------------- ----------------------------------------------------------------
Requirements: Perform pre and post test calibration.
Description of Anomaly: Nine thermocoouples were indicating open and
one additional thermocouple was out of tolerance. The channels
indicating open were C3, C7, C21, C43, C67, C68, C71, C72, and
r73 Channel C29 was out of tolerance R.QfQronce NCR gL4O29
Comments and Recommendation: Accept the data taken from all of the
channels used. The bead on the thermocouples apparently was
DroRen when the thermocouples were removed rrom the specimens.A - 41- - -AA - 4- - C S--- L. Ho - L. - - - - 1 - -n - - -- ;
c', acie 'n iI 2da i r im Ln I 1 WL:1oAou6p±, :E , out4i oI
0 .toJejrance. Continued on the next page.
D2isposition: f zba /rEZg~gFcvw~>rz/
Project Engineer a l-2 /QC Superviso Date I-
Engg Svcs Sup t' A /Date /4 ifr Customer Approval Vj NDate Z////
G-9
Page 2 f 2Anomaly cl .-oo I--
Comments and Recommendations, continuedThe magnitude of the error indicated the thermocouple wasdamaged during the removal process. An error of thismagnitude would have been obvious had it been present duringthe test period.Standard 29.91 39.82 90.69 94.92UUT C29 12.7 2.8 -56.7 -62.2C29 was used to measure the white conductor at location 3 forthe conduit tests, bare and wrapped and the small air droptest, bare.
C3, C67, C68, C71, and C73 were not used during the test.C7 was used to measure the surface temperature for the 3M wrapduring the conduit test and large air drop test.C21 was used to measure the white conductor temperature forthe conduit and small air drop test both bare and wrapped.C43 was used to measure the conductor labeled "D" at location3 for the large air drop test bare.C72 was used to measure the conductor labeled "H" at location1 for the large air drop test bare and wrapped.
H-1
NP VENDOR TECHNICAL MANUAL COVER SHEET
VENDOR TECHNICAL MANUAL NUMBER WBN-VTM- M o30I - o
VENDOR TECHNICAL MANUAL
FOR
3M> Fi1te B A x k7 : PiO a 7
MANUAL STATUS: CLASS 1 CLASS 2 U CLASS 3 U CLASS 4 U
REVISION LEVEL:
PREPARED: ___
CHECKED: L
APPRV'D FOR ISSUE
DATE: _0_
X THIS MANUAL CONTAINS ENGINEERING REQUIREMENTS AS INDICATEDON THE ENGINEERING REQUIREMENTS APPLICABILITY FORMS.
°THIS MANUAL CONTAINS DESIGN INPUT AS INDICATED ON THEDESIGN INPUT FORMS.
PORTIONS OF VENDOR TECHNICAL MANUALS INDICATED ON THEENGINEERING REQUIREMENTS APPLICABILITY AND/OR DESIGN INPUTFORMS ARE TO BE FOLLOWED, IN TOTAL, UNLESS GENERAL ACCEPTANCEHAS BEEN DOCUMENTED OR REQUESTS TO DEVIATE FROM THE VENDORRECOMMENDATIONS ARE APPROVED BY NUCLEAR ENGINEERING.
ENGINEERING REQUIREMENTS AND/OR DESIGN INPUT ARE LISTED ONDESIGN INPUT FORM(S) FOLLOWING THIS COVER SHEET AND REVISIONLOG.
THIS MANUAL CONTAINS EQUIPMENT INFORMATION AS SUPPLIED BY THEVENDOR AND/OR MANUFACTURER AND SHALL NOT BE USED IN LIEU OFSITE MAINTENANCE INSTRUCTIONS, SURVEILLANCE INSTRUCTIONS,DESIGN SPECIFICATIONS, CONTROLLED DRAWINGS OR OTHER SITECONTROLLING INSTRUCTIONS OR SPECIFICATIONS. THE ENCLOSEDAPPLICABILITY LIST IDENTIFIES EQUIPMENT APPLICABILITYEXCEPTIONS AND LIMITATIONS.
WBN REV S,WBN PAGE /
H-2
WBEP 3.11Attachment B
VENDOR MANUAL
Vendor Manual Number:WBN-VTM-M030-0010
REVISION LOG
TITLE OF DOCUMENT:VENDOR TECHNICAL MANUAL FOR3M FIRE BARRIER PRODUCTS
REVISION DATE DESCRIPTION OF REVISION CHANGE DOCUMENTI NUMBER (if aDDlic.)
ORIGINAL ISSUE OF:TABLE OF CONTENTSAPPLICABILITY LIST, REV. 0WBN-VTD-M030-0020, REV. 0WBN-VTD-M030-0030, REV. 0WBN-VTD-M030-0040, REV. 0WBN-VTD-M030-0050, REV. 0WBN-VTD-M030-0060, REV. 0WBN-VTD-M030-0070, REV. 0WBN-VTD-M030-0080, REV. 0WBN-VTD-M030-0090, REV. 0WBN-VTD-M030-0100, REV. 0WBN-VTD-M030-0110, REV. 0WBN-VTD-M030-0120, REV. 0WBN-VTD-M030-0130, REV. 0WBN-VTD-M030-0140, REV. 0WBN-VTD-M030-0150, REV. 0WBN-VTD-M030-0160, REV. 0WBN-VTD-M030-0170, REV. 0WBN-VTD-M030-0180, REV. 0WBN-VTD-M030-0190, REV. -0WBN-VTD-MO30-0200, REV. 0WBN-VTD-M030-0210, REV. 0
NO WBN VMS HAVE BEEN REPLACEDBY THIS ISSUE.
REVIEW PACKAGE NO: 00466
.1 _______________
WBEP-0907LWBN REVQ-WVBN7 PAGE.a
0 ,t)4
H-3
NP iENGINEERING REQUIREMENTS APP CA.BILITY FORM
VMMOR TONMCAL MANUAL NUnBER i9/- i-5t- o3- oO/ o
VENDOR TECR{MCAL MANUAL
FOR
MANUFACrURER
- eE- ,Bafe / EZ PZODOC7SEOUIPMENr TYPE
THE FOLLOWING PAGE(S)/SECTION(S) REFLECT ENGINEERING REQUIREMENTS:
THE FOLLOWING CATEGORIES OF VENDOR MANUAL RECOMMENDATIONS REQUIRE ENGINEERINGCONCURRENCE PRIOR TO DEVIATION:
1. Material substitution, except lubricants, when no NE requirements exists.
2. Instrument setpoints when no design output exists.
3. Torque requirements which are not specified in plant approved procedures.
4. Test acceptance criteria when no Nuclear Engineering approval exists.
5. VM recommendation conflicts with design output document.
JPAREP:e /9oDATE
. 8-3- 21dREVIEWE. I/' A-
APPROVED BY:
DATE
[E GENGEEMNG REQUIRBME2TS APPU>CABIITy poRM IS TO
SJE= MANI)AL
CONCURRCE SIGNATURES (MARK 'NA'WHER NOT APPU CABLE)
ME LE DATE
EE¢ L DATE
rl=L Z DATEz
BE FIL- BEI-nND THl REVIS0ON LOG IN THE
VI B N REV ).WBRN PAGE ±3
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WBN-VTD- M 030 - C/O0
WATTS BAR NUCLEAR PLANT
RECORD OF REVISIONS
TITLE OF DOCUMENT:
.ZW 5r LLA TOrzAv
fate e J22 E F Cactv D / T
fCP ,z 3 /-CZ0,115. E 530a0-C7
\.i.' ~ C -,, is\ in 2V
v..- N PA GL.-
REVISION |_DATE DESCRIPTION OF REVISION REVISED BY
0 // ORIGINAL w
TOTAL PAGES: . 40
REFERENCE PRINT #
00-C5-1*|O-C5-2
WBN-VTD-M030-0100REFERENCE PRINT I'
5300-MA
Section A-A Mat M20AConduit
Mat M20A-Aluminum Tape, orStaple On 8" Max.Spacing
Butted Seam TapedWith Aluminum Tape
Min.
nimum
Conduit
First Layer Mat M2
Second Layer Mat
* Install Number of Layersas Required in Table 1,Print 5300-C5-2
L BI!'^1 T'!
laximum
R' EV .- - - --PAGE,- . 7
AluminumTaoe
NOTE: For Material List, see 5300-MA
*0 0.onht, InJ^-da 1.. 0f1 Oft to - 0cOV.df ^nAN~ 1e-z o - * od-t
*._ .-. "~- ft" - 1-ftb 4# bwk- d ouel0. ft-, .- o MN. c.0-i00 .C u.- .ed MeOono,-0.d o- -o I am IN. 00 11.040 feo -V
in dfl-t 0 -f..n. to0tE.. f#or if. u. Of-- - 0V-. 2hM. 040 -vtf I 64 to
O f Ott O.o Od tOO. d" -l.
NOT TO 5C1.( jc|.J. Israelson
RK.A. Jensen f R. Licht
FIRE BARRIERCONDUITSTRAIGHT RUN
Page 1 of 3 M20A5300-C5
- 7_-
WBN-VTD-M030-0100
INSTALLATION INSTRUCTIONS
1. Determine the size of the conduit to be protected.
2. Refer to Table 1 (print #5300-C5-2) to determine the length and number of
layers required for one-hour protection.
3. Cut Mat M20A to proper dimension. Note: Clean hands or gloves required to
keep Mat clean before applying aluminum tape.
4. Apply a strip of aluminum tape to Mat M2OA edge, allowing 1/2 of the tape
width to overhang the Mat. Note: Omit this step when using staples. See7A.
5. Crease Mat in half with aluminum foil on outside surface.
6. Place Mat around conduit.
7. Fold the Mat around the conduit and seal with tape. To ensure a good bond,rub down the tape with a small rubber roller or hot iron.
7A. Option: The Mat may also he stapled together at 8 + 1 inch spacing. Placestaples 1/4 inch + 1/8 inch from edges.
8. Install second and succeeding strips by butt jointing to first strip. Tapethe butt joint with aluminum tape.
9. Install succeeding layers using above procedure, reversing direction of edgeseam on each layer. The edge seam of each layer must be at least 2 inchesfrom the seam above or below it.
10. Seal the last exposed edge of Mat with aluminum tape even if option 7A wasused.
11. InstallJWoed P-*4after all layers are installed, b W-+--r y %r6 Ua~uiia~y
d 4 down the lngth of conduit with a maximum spacing of-2 i nches between rw4a4ps t Gov- (prinit # 53O0-e!). 8
-1a. The Cord ,3 zhould be covered on the su fav with - ldyzr of alum.,,u Leper
'ABN REV _
W BAT PAGE 8
AU} t.-t, - h-.< ^j.S -d *---pC0f..%- N-.. -. bn-d Oil t .f - a.. 90 bS -*.
A-:~ hi--. at. >.CO.q.On Of on Get .0.CtOf
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--. do nt of cZn..ot . *.t~ttO tto.n ).tw ,, Of~ 'ta'- . WHOA _. - 9 .b A W -y t .J 0.l. *.- n. a_ Of Of *ACtS f-Abrd 00. d.tny-...
Ceramic MaterialsDenartmantrIM 3M
ISsue
4
OATE
6-1
|REV. I CM.
0-84
not ro CAsraR.J. Israelson
K.A. Jensen
5300-C5-1
t R.R. Licht
FIRE BARRIER
ConduitStraight RunInstructions
Paze 2 oF 3
A.
I.- __I I ______ __ ______________
M20A
I-r I I
- -
WBN-VTD-Mo30-0100
TAKLE 1
DIMENSIONAL REQUIREMENTS OF MAT M20A
CONDUIT SIZE VERSUS MAT LENGTH AND NUMBER OF LAYERS(For Cable With Fire Resistance > 600 0F)
LayerM20A Total Length
19 "
20"
21"
22"
ConduitDiameter
3/4"
1"
1.25"
1.50"
2"
2.5"
3"
3"
4"
5"
6"
6411
69"
74"
79"
62"
69.5"
77.5" forthan 20%
Layer1
6.5"
7.5"
8.5"
9.5"
11 "
12.5"
14.5"
14.5"
18"
22"
25"
WBN1WBN
REtV 0PAG E1-9
ISSUE DATE REV. CHl.
A ~ .ni~~n E. -d #~ FIRE BARRIER-5 6-10-84 ONUT
. S. V. . ct-,t ot W - -. C NU.n ITbe-of0, 6- ---. 3A~ - b. a to -v C
. o i,, f-.... .. *, rof ... o S n STRAIGHT RUN'>-w s -.1. - -" ~w . o R.J. Israelson u Ul
- fOb>l.. MAT WIDTH CHART. K.A Jensen R.R. Lichc
Ceramic MaterialsCDepamcmenat3M er 5300-C5-2 Page 3 of 3 M20A
-- .v 3 ~
Layer3
13"
14"8
15"
16"
17"
19"
21"
Layer4
16"
17"
18"
19"
20"
22"
24"
Layer2
9.5"
10.5"
11.5"
12.5"
14"
16"
18"
1881
22.5"
25"
28.5"
53.5 forgreater than orequal to 20%fill
65.5"
74"
85.5"
lessfill
25"
27"
32"
H-9
WBN-VTD- M 030 - 0090
WATTS BAR NUCLEAR PLANT
RECORD OF REVISIONS
TITLE OF DOCUMENT: VENDOR A ~1M'2,Ala, /
faeE 8 44eeeD Z an- D ZoP
REVISION DATE DESCRIPTION OF REVISION
0 ORIGINAL
TOTAL PAGES: 8
I I I
I I __I
REIEDB
. WBN REVSWBN PAGE ?
I
/p,5 10-1 i 53500 -R,0
REVISED BY
612,190
W8N- VTD- M030-0090
REFERENCE PRINT #5300-AD-1
k30O-AD-2
REFERENCE PRINT #
OPTION 2:STAPLE ON 8'
OPTION 1: RJOINTS COVERED B R-V. O FIRSTL (ADJOINTJAWITH ALUMINUMBN PAGE 3ER M MATAPE WNPG
LII .4.fl-fl4W. I. C c fl~fl* b *fc..S tbfe.M., d A-. -.A - nnn - o .- t so ..%4. -- ,. sn-f I.. Cc-.'-- 4 s -d -w.
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Ceramic MaterialsDeoartment3M
JEL* I DA4TE REV. CH.
6-10-84
NOT 5.( 0k'R.J. Israelson
MK.A. Jensen
FIRE BARRIERAIR DROPSTRAIGHT RUN
3M ,I 50-DPg f3M" ' 5300-AD Page 1 of 3 M20A
. .1111MI
, -
W- 1 n
IR.R. Licht
REFERENCE PRINT #5300-ADl-l
U- 11
REFERENCE PRINT #5300-iYA
WBN-VTD-M030-0090
COOL SIDE
HOT SIDE
CS-195 Sheet (foil placed side) orconcrete barrier. Cut sheet tofit around first layer of Mat M20A.
Caulk CP-25 at joi
2 layers of Mat M20A(tight-wrapped)
Option 2: Staple on 8"Max. spacing
Option 1: -Aluminumtape on seam
AS2 Cord 34- cover-z.77 e- l) v-e Iihaui~-s
.1 layer of Mat M20A with cordand tape. (If penetrationpasses through a concrete wall,the 1 layer of M20A is notnecessary on the cool side).
WOEN ItE' 0Aluminum Tape 'I BN PAGE
I5SSU OATE REV. CH.I " - wuZ- o"s 5 6-10-84 FIRE BARRIERth* ok .dt 1 " -A tooticAd,
I - w ____________"_ __, AIR DROP- °- ., 3hd. -,-V arm ~ b.J. Israelson INTERFACE- CS-195/M2OA
-- of , m0-Sa, *-ad to b.41.W K.A. Jensen 'I.R. Lichc
Ceram5ic MaterialsDartment/3M 5300-:ADl Page 1 of 2 M20A
:-19
WBN-VTD-M030-0090
STALLATION INSTRUCTIONS
1. Install air drop protection system as per Print # 5300 AD.
2. Interface connection can begin before or after installation of CS-195 sheet.
3. Remove CS-195 Sheet from exit point if installed.
4. Wrap protection system into exit point - 12 inches minimum.
5. Reinstall CS-195 Sheet to exit point. Widen cutout if air drop protection system is
too wide to fit. 1/4" maximum distance between CS-195 and Mat M20A.
6. Caulk gap between CS-195 and air drop protection system with Caulk CP-25 or Putty
303.
7. Wrap enough layers of 4 inch wide Mat M2OA around air drop exit point, wrapping as
close to junction as possible. Use minimum of two layers of Mat.
'5~.e'ss :54.J e r }(R-JA.) 4a Fej- all /4Ye5 E s-I v 'x
8. Install(C rd 34 "±Peund 4 inch Mat folloIing standard procedure 5300-C5. 2,7 ki, 3
9. Cover edge of 4 inch Mat following standard procedure 5300-C5.
10. Caulk interface between Mat and CS-195 Sheet.
11. Exit and entry points must use the above method for interface protection.
W BN R EV .V OWMBN PAGE 7
amd " . t __ UE DATE REV. CH4. FIRE BARRIER
Sy dI n03 6-10-84 AIR DROP
, -. , d11*4 t or. of OTi TO SCM( CH Interface CS-195/M20A-h 00.o. t . .oy ,...i b. to J Is. re RJn
-. C-~ Q~ 0ir 00f 0t EGd lo b. d-.f.0*. . Instructions
K.A. Jensen R.R. Licht
i Merals 5300-ADI-1 Page 2 of 2 M20A I
Deartmentl3M 4
H-li W8N-VTD-.M030-009O
D NSTALLATION INSTRUCTIONS1. fetermine the size of the air drop cables to be protected by measuring the bundle
perimeter with a flexible tape or cord.
2. Refer to Table 1 (Print 05300-AO-2) to determine the length and number of layers
required for one hour protection.
3. Cut Mat M20A to proper dimension. Note: Clean hands or gloves required to keep
before applying Aluminum Tape.
4. Apply a strip of Aluminum Tape to the aluminum side of the Mat edge, allowing 1/2 of
the tape width to overhang the Mat edge. Note: Omit this step when using staples.
See 7A below.
5. Crease Mat in half with aluminum foil on outside surface.
6. Place Mat around air drop cables.
7. Fold the Mat around the cables and seal with tape. To ensure a good bond, rub down
the tape with a small rubber roller or hot iron.
7A. Option: The Mat may also be stapled together at a maximum inch spacing. Place
staples 1/4 inch + 1/8 inch from edges.
8. Install second and succeeding strips by jointing to first strip with a 1" minimumI overlap. This seam may be stapled. The pointed foot of the stapler is used to
puncture the Mat so that it may be secured. The aluminum foil of the Mat must be
repaired. This is done by covering with a piece of Aluminum Tape, 3" X 3" - minimum
size. Tape the seam of the overlap with Aluminum Tape.
9. Install succeeding layers using above procedure, reversing direction of edge seam on
each layer. The edge seam of each layer must be at least 2 inches from the seam
above or below it.
10. Seal the last exposed edge of the Mat with Aluminum Tape even if option'7A was used.
11. Install Cor.d- 3 after all layers are installed by wrappin o dia nally downlei,'th of air drop with a maximum of -2- inches between Us. (Print ,5300-AD).
-12 The Cord 83 should be. coee en tho :ur-facc with a layer n'f alurniiu"r thec 84~/2/2If y
WBN REV DWBN PAGE 4
ISSUE |ATE REV. Cm.
AM..,. =" = 0.1. .... ff FIRE BARRIER,~z~~ K m 4 6-10-34 Air Drop-- A All-* s~g"4I.- *.oAir Drop
.. n... ,.. m~tP .a.sI.., in d t04C4 toflA
.,nduet..n..4. 'f so-f, * . bo. en- wof H OT TO SCAtE
-. -.. R. . , 1 . Straight RunA"P Instructions
K.A. Jensen R. R. Licht
Ceramic MaterialsDepartmentl3M avi5300-.4D-1 Page 2 of 3 M20A
H-13 W8N--VTD- M030-0090
H- 14 WB&-VTDM0300090
TABLE 1
DIMENSIONAL REQUIREMENTS OF MAT M20A*
AIRDROP VS. MAT WIDTH AND NUMBER OF LAYERS
Size (inches)**
Ai rdropPerimeter
RoundCable
AirdropDiameter
3/4"
1"
1.5"
2.0"
2.5"
3.0"
4.0"
5.0"
Layer 1
6.5"
7.5"
9.5"
11 .0"
12.5"
14.5"
18.0"
22.0"
Layer 2
9.5"
10.5"
12.5"
16.0"
18.0"
21.5"
25.0"
Layer 3
13"
14"1
16"
17"
19"
21"
25"
28"
Layer 4
16"
17"
19"
20"
21.5"
24.5"
28"
31"
Layer 5
19"
20"
22"
23"
25"
27.5"
31"
34"
* Per U.L. letter dated September 27, 1983
** Length of each layer to fit around cable bundle (tolerance + 1/2")
WBN REVDWAN PAGE 5
ISSUE OATE REV. CH.A" -. FIRE BARRIER
- ---. 0444.,- 3 6-10-84
-- , I us. f -- . , NOT TO 5CAEU Air Dropw ' R.J . Israelson Straight Run
K. A. Jensen R.R. Licht Table 1
Depammen ra3 OM 5300-AD-2 Page 3 of 3 M20Artet3
2
3
4
6
.7
9
12
15
3/8"
1/ 8"
3/4"
1/4"
7/8"
1/2"
1/2"
3/4"
H-14 WBN-VTD-M030-0090
REFERENCE PRINT #5300-C5
WBU-VTD-MO30-0090
Fire Barmer Caulk CP-25 orPutty 303, in Four Comer
Fire Barrier Mat M20A(First Layer)
Fire Barrier Mat M20A tr-(Second Layer)
1121 WeldedCloth
Hardware
Approved fasteners
5300-C 5
First Layer Second Layer
Note: StaggerSeams
ConcreteSlab
1/2" Welded Hardware Cloth
A#1 I..-. -ZI% .id-Z -- Aen - a. o- in - o IC e- of
.. fl.... ..n U' c.91.m fb a. *nc nn.
n _I-1 O- CWgl. i . l - g-o b* tI- * Of " -wl. i . tC dffta.
Ceramic MaterialsDepartmentu3M
IISSUE
3
DATE
6-10-84I0T TO ScAc
_~ Cablesor Conduit
Side Section ViewT B 1,", RE O
N I PALG-
FIRE BARRIERAIR DROP OR CONDUITFROM CONCRETE SLAB
04
1R.J. Israelson
K.A. Jensen IR.R.
Page 1 of 1
lI
5300-AD5 M20A
II
1-1
JOB NUMBER 94-0357
INSTRUMENT LOG
DESCRIPTION
Infrared Thermometer
Keithley 197
Rule
Tektronix Oscilloscope
Keithley 2001
Shunt
Fluke 2286A
TVA ID
906069
890279
900971
572242
906057
901311
890593
CAL
11-23-93
08-11-9311-16-93
09-03-93
05-05-9311-10-93
08-31-9312-08-93
11-17-93
11-16-93
DUE
11-23-94
11-11-9302-16-94
09-03-98
11-05-9305-10-94
11-30-9303-08-94
11-17-94
05-16-94
- ENCLOSURE 2WATTS BAR NUCLEAR PLANT
3M FIRE BARRIER TESTING - AMPACITY DERATING TEST REPORTLIST OF COMMITMENTS
1. Since no ampacity correction factors previously existed for cable inwrapped air drops, TVA's design standard will be revised to include acorrection factor of 0.51 based on our recent tests.
2. TVA will perform compressive load testing for cables used in 3M firebarrier enclosures. The testing is expected to be completed in April,1994.
3. The results of the compressive load testing for cables used in 3M firebarrier enclosures will be submitted for NRC review following testcompletion.
E2-1