NCHRP Project 10-70sp.bridges.transportation.org/Documents/2011 SCOBS...Advanced Technology for...
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Advanced Technology for Large Structural Systems CenterLehigh University
Sougata Roy, Richard Sause, John W. Fisher, Yeun Chul Park, Eric J. Kaufmann
NCHRP Project 10-70:Cost-Effective Connection Details for Highway Sign, Luminaire and Traffic Signal Structures
Recommended Specification —Application Examples
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Advanced Technology for Large Structural Systems CenterLehigh University
Project Summary (2006-11) 80 full scale specimens
– Rational experiment design to establish infinite life
– Multiple details and geometric combinations
– 158 tests including re-runs ( approx. 2000 million cycles)• Approximately 330 details tested (cumulative 5000 million cycles)
Parametric FEA using 30,000+ models
– Extended experimental results over a broad range of structure sizes and geometric combinations
Specification for cost-effective fatigue design
Final Report (in the process of publication)
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Advanced Technology for Large Structural Systems CenterLehigh University
NCHRP Project 10-70 @ LehighFritz Lab ATLSS Lab
Analytical and experimental evaluation 80 full size specimens, 158 tests Revisions to the AASHTO Specification 2006-11
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Advanced Technology for Large Structural Systems CenterLehigh University
Critical Details Tube-to-transverse plate connections
– Mast arm-to-transverse plate
– Pole-to-base plate
Handhole– Reinforced
– Unreinforced
Mast arm-to-pole connection– Gusseted box
– Ring stiffened
Mast arm-to-pole pass-through connection
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Advanced Technology for Large Structural Systems CenterLehigh University
Tube-to- Transverse Plate Connections
Fillet-weldedor
SocketFull-penetration
Groove-welded
Stiffened Socket
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Advanced Technology for Large Structural Systems CenterLehigh University
Tube-to-Transverse Plate Connection Displacement Induced Fatigue
– Relative stiffness of components important Fatigue resistance of connections depends on
– Member cross section• Round vs. Multisided
– Connection Geometry• Tube diameter and thickness (relative to plate)• Plate thickness (use minimum 2 in)• Number of fasteners and bolt circle ratio• Opening in end plate (groove welded connections only)• Stiffened vs. Unstiffened
– Detail Configuration• Fillet (socket), Groove welded etc.
– Weld Geometry• Weld shape and size (Weld termination angle)
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Advanced Technology for Large Structural Systems CenterLehigh University
Geometric Parameters
DT
tT
tTP
DOP
DBC
NB
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Advanced Technology for Large Structural Systems CenterLehigh University
Specification - What’s New 2 level specification
– Nominal stress-based design for most cases– Local stress-based and experiment-based design for special
cases (Appendix D)
Proposed for both finite and infinite life– Infinite life : new design– Finite life : assessment
Format similar to AASHTO LRFD Bridge Design Specification (2009 Interim)
Fatigue resistance defined as function of geometric parameters
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Advanced Technology for Large Structural Systems CenterLehigh University
Stress Concentration Factors – KF , KI
Base equations for round section geometries
– Geometric SCF (finite life - KF)– Socket and groove welded connections have different
equations
Modification multiplier for infinite life (KI)
For multisided cross sections modify SCF equations for round section
For stiffened connections modify SCF equations for unstiffened connections
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Advanced Technology for Large Structural Systems CenterLehigh University
Nominal Stress Calculation (1) Fillet-welded (socket) connection
– Section at fillet weld toe on tube wall
Stiffened connections– Section at stiffener top weld toe on tube wall– Section at fillet weld toe on tube wall
• Ignore stiffener section (Implicitly considered in SCF equations in Table 11-1 and in Table C11-1)
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Nominal Stress Calculation (2) Groove-welded connections with
backing ring not welded at top– Section at groove weld toe on tube wall– Ignore backing ring section
Groove-welded connection with backing ring welded at top
– Section at groove weld toe on tube wall
– Section at toe of backing ring top weld on tube wall
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Advanced Technology for Large Structural Systems CenterLehigh University
Mandatory Requirements Thickness of transverse plate ≥ 2 in Unstiffened tube-to-transverse plate connections
– Fillet welds and weld reinforcements shall be unequal leg welds (approximately 30o on tube side)
– Backing ring • height ≤ 2 in• thickness ≤ ¼ in• Backing ring can be welded to tube only when quality of weld can be
ensured (recommended DT ≤ 16 in)
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Advanced Technology for Large Structural Systems CenterLehigh University
Fatigue critical details– Mast-arm-to-transverse plate connection– Column-to-transverse plate connection– Mast-arm-to-pole connection– Handholes– Anchor rods
Design Example 1 : Sign/Signal Structure
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Advanced Technology for Large Structural Systems CenterLehigh University
Mast-arm/Pole-to-Transverse Plate Connection
Design criteria– (f )n ≤ (F )n
Nominal stress range at mast-arm base– (f )n : depends on tube section property (DT, tT )
Nominal fatigue resistance – (F )n : depends on connection geometry (DT, tT , tTP, DOP,
etc…)
Fatigue design load (due to galloping)– PG = 21IF
MG
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Advanced Technology for Large Structural Systems CenterLehigh University
Fatigue Resistance in Proposed Spec.
Three choices
– Use Table C11-1 • Tested details in NCHRP 10-70 for infinite life
– Use Table 11-2 and equations for tubular structures
– Appendix D • Only for innovative details
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Advanced Technology for Large Structural Systems CenterLehigh University
Choice 1: Table C11-1
(F )n = (F )TH = 10.0 ksi (Category C)
(f )n < (F )n → infinite life (OK !)
MG = 215 k-in
tT = 0.239 inDT = 13 in
(f )n = 7.2 ksi
Option 1
Option 2
tTP = 2.0 in
DOP = 4 in
tTP = 2.5 in
DOP = 7 in
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Advanced Technology for Large Structural Systems CenterLehigh University
Choice 2 : Table 11-2 / EquationsRound Full-penetration Groove-welded Tube-to-Transverse Plate Connection
Applied Moment M 215 k-in
Transverse Plate Thickness t TP 2.0 inTube Thickness t T 0.239 inTube Diameter D T 13.0 inNumber of Fasteners N B 4Bolt Circle Diameter D BC 23.3 inTransverse Plate Opening D OP 4 in
Applied Nominal Stress ( f )n 7.2 ksi
Stress Concentration Factor K F 1.6K I 2.9
Constant Amplitude Fatigue Threshold ( F )TH 10 ksi OK
LINK
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Advanced Technology for Large Structural Systems CenterLehigh University
Note : Groove-welded Connections Existing specification : Category E
Proposed specification :
– depending on connection geometry (tT, DT, tTP, DBC, DOP, and NB )
• Category E, D or C
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Advanced Technology for Large Structural Systems CenterLehigh University
Table 11-2Description Finite Life Constant,
A×108 (MPa3 (ksi3))
Thresholdf, (F)TH
(MPa (ksi))
Potential Crack Location Example
SECTION 1 — GROOVE-WELDED CONNECTIONS 4.5 Full-penetration groove-welded tube-to-transverse plate connections with backing ring attached to the plate with a full penetration weld, or with a continuous fillet-weld around interior face of backing ring, and the backing ring not welded to the tube.
KF ≤ 1.6 : 3750 (11.0) 1.6 < KF ≤ 2.3 : 1330 (3.9)
KI ≤ 3.2 : 69 (10.0) 3.2 < KI ≤ 5.1 : 48 (7.0) 5.1 < KI ≤ 7.2 : 31 (4.5)
In tube wall along groove-weld toe.
Column-to-base-plate connections. Mast-arm-to-flange-plate connections.
SECTION 2 - FILLET-WELDED CONNECTIONS 5.4 Fillet-welded tube-to-transverse plate connections
KF ≤ 3.0 : 1330 (3.9)
KI ≤ 3.0 : 48 (7.0) 3.0 < KI ≤ 5.7 : 31 (4.5) 5.7 < KI ≤ 7.2 : 18 (2.6)
In tube wall along fillet-weld toe. Column-to-base-plate or mast-arm-to-flange-plate socket connections.
SECTION 3 - ATTACHMENTS 6.2 Tube-to-transverse plate connections stiffened by longitudinal attachments with partial- or full penetration groove-welds, or fillet-welds in which the tube is subjected to longitudinal loading and the welds are wrapped around the attachment termination.
KF ≤ 2.5 : 3750 (11.0)
(See detail 5.4)
KI ≤ 5.5 : 48 (7.0)
(See detail 5.4)
In tube wall at the toe of the attachment to tube weld at the termination of attachment. In tube wall at the toe of tube-to-transverse plate weld.
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Advanced Technology for Large Structural Systems CenterLehigh University
Equation : Groove-weld Connection
0.0674 1.121.95
0.0029 0.689
1.01.35 0.982 1.0 17.3 2.602.24 0.764
BC TF T TP
B OP
C DK t tN C
DT
DOP
tT
tTP
DBC
2940 Geometric Combinations (FEA Models)
GSCF: Geometric Stress Concentration Factor
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Advanced Technology for Large Structural Systems CenterLehigh University
Significance of Geometric Parameters
NB neglected CBC neglected
COP neglected
tT neglected DT neglected
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Advanced Technology for Large Structural Systems CenterLehigh University
Simplified Equations (Unstiffened)…
Round Fillet-welded connections
Round Groove-welded connections
0.0474
0.0105
1.15 2.36
2.16 0.908 0.924 4.54 52.1
14.6 1.17
BCF T
B
T TP
CK tN
D t
0.03 1.2 2.52.2 4.6 1 2 15 10F BC T T TPK C t D t
0.0674
0.0029
1.121.95
0.689
1.35 0.982 1.0 17.3
1.02.602.24 0.764
BCF T
B
TTP
OP
CK tN
D tC
0.02
20.7
11.35 16 1 15 54 3
BCF T T TP
OP
CK t D tC
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Advanced Technology for Large Structural Systems CenterLehigh University
Simplified Equations (Stiffened) ……
Stiffened connections at stiffener termination
Stiffened connections at fillet-weld toe on tube wall
0.334
0.707
1.60 1.42 0.797 2.91
4.36 1.00.160 0.864
1.0 1.122.26
0.870 0.02930.519 0.257
ST
STTF
ST ST
T
T
ST T T ST
thtK t h
t
DN t t t
0.4 0.8
0.7 1.20.3 0.9 0.4ST TF
T ST
t DKt N
1.03
0.914
0.631
F
0.1299.84 4.891.82 6.56
2.790.859 0.80212.9
K of unstiffened
T T
ST ST
TPF
ST
D DN h
tKt
0.15
1.5 0.5
F
0.13 6.51.0 130 17
K of unstiffened
T
F ST ST ST
DK N h t
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Advanced Technology for Large Structural Systems CenterLehigh University
…… But Comes with a Cost
Simplified Proposed Equation
0.02
20.7
11.35 16 1 15 54 3
BCF T T TP
OP
CK t D tC
Proposed Equation
0.0674
0.0029
1.121.95
0.689
1.35 0.982 1.0 17.3
1.02.602.24 0.764
BCF T
B
TTP
OP
CK tN
D tC
groove-welded connections
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Infinite Life Stress Concentration Factor Includes local notch effect
(1.76 1.83 ) 4.76 0.22 FKIT
F
Kt
K
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Alternative Design Chart (Groove)COPNB
DT
tT tTP CBC
2 2.5 3 3.5 4 2 2.5 3 3.5 4 2 2.5 3 3.5 4 2 2.5 3 3.5 4 2 2.5 3 3.5 4 2 2.5 3 3.5 4 2 2.5 3 3.5 4
1.251.51.7522.252.51.251.51.7522.252.51.251.51.7522.252.51.251.51.7522.252.51.251.51.7522.252.51.251.51.7522.252.51.251.51.7522.252.5
0.5
0.625
42
0.125
0.1875
0.25
0.3125
0.375
10 13 18 24 30 36
90% 60% 30%4 6 8 12 16 : Category C
: Catogory D
: Catogory E
: Combination cannot be used
Equation as-is
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Advanced Technology for Large Structural Systems CenterLehigh University
Effect of Simplification (Groove)COPNB
DT
tT tTP CBC
2 2.5 3 3.5 4 2 2.5 3 3.5 4 2 2.5 3 3.5 4 2 2.5 3 3.5 4 2 2.5 3 3.5 4 2 2.5 3 3.5 4 2 2.5 3 3.5 4
1.251.51.7522.252.51.251.51.7522.252.51.251.51.7522.252.51.251.51.7522.252.51.251.51.7522.252.51.251.51.7522.252.51.251.51.7522.252.5
90% 60% 30%
10 13 18 24 30 36 4216
0.125
0.1875
0.25
0.3125
0.625
4 6 8 12
0.375
0.5
: Category C: Category C → D: Catogory D: Category D → E: Catogory E: Category E → None: Combination cannot be used
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Solution Using Simplified Design ChartCOPDT
tT tTP CBC
2 2.5 3 3.5 4 2 2.5 3 3.5 4 2 2.5 3 3.5 4 2 2.5 3 3.5 4 2 2.5 3 3.5 4 2 2.5 3 3.5 4 2 2.5 3 3.5 4
1.251.51.7522.252.51.251.51.7522.252.51.251.51.7522.252.51.251.51.7522.252.51.251.51.7522.252.51.251.51.7522.252.51.251.51.7522.252.5
30
0.375
0.5
0.625
60% 30%36 42
0.125
0.1875
0.25
0.3125
90%10 13 18 24
E
E E
E
E
E
E
D
D D
D D DD
CC C C C C C22.7 ksi 13.3 ksi
15.4 ksi
11.8 ksi 6.9 ksi
9.0 ksi
MG = 215 k-in
(f )n = 9.0 ksi
(F )n = (F )TH = 10.0 ksi (C)
or
(f )n = 6.9 ksi
(F )n = (F )TH = 7.0 ksi (D)
(f )n < (F )n : Category C
: Catogory D
: Catogory E
: Combination cannot be used
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Advanced Technology for Large Structural Systems CenterLehigh University
Summary of DesignFillet
Option 1 Option 2
t TP (in) 2.0 2.5 2.5 3.5 2.5
t T (in) 0.239 0.239 0.25 0.1875 0.239
D T (in) 13 13 13 13 18
D BC (in) 23.3 23.3 19.5 19.5 24
D OP (in) 4 7 11 11 —
( f )n (ksi) 7.2 7.2 6.9 9.0 3.7
( F )n (ksi) 10.0 10.0 7.0 10.0 4.5
Table C11‐1 Table 11‐2 / Equation
Table 11‐2 / Equation
Option3
Groove
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Mast-arm-to-column Connection
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Design Example 2 : Highmast Luminaires
Fatigue critical detail
– Pole-to-transverse plate connection
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Option 1 : Stiffened ConnectionStiffened Tube-to-transverse Plate Connection
Applied Moment M 4235 k-in
Transverse Plate Thickness t TP 2.0 inTube Thickness t T 0.5 inTube Diameter D T 42.0 inNumber of Fasteners N B 12Bolt Circle Diameter D BC 50.0 inNumber of Stiffeners NST 12Height of Stiffeners hST 12.0 inThickness of Stiffeners tST 0.625 in
Applied Nominal Stress ( f )n 6.3 ksi
Stiffener Termination K F 2.1K I 5.1
Constant Amplitude Fatigue Threshold ( F )TH 7 ksi OK
Fillet-weld on Tube Wall K F 1.7K I 4.0
Constant Amplitude Fatigue Threshold ( F )TH 4.5 ksi NOT SAFE
LINK
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Option 2 : Groove-weld ConnectionRound Full-penetration Groove-welded Tube-to-Transverse Plate Connection
Applied Moment M 4235 k-in
Transverse Plate Thickness t TP 3.5 inTube Thickness t T 0.5 inTube Diameter D T 42.0 inNumber of Fasteners N B 12Bolt Circle Diameter D BC 50.0 inTransverse Plate Opening D OP 30 in
Applied Nominal Stress ( f )n 6.3 ksi
Stress Concentration Factor K F 2.0K I 5.0
Constant Amplitude Fatigue Threshold ( F )TH 7 ksi OK
LINK
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Advanced Technology for Large Structural Systems CenterLehigh University
Note : Stiffened Connections Existing specification : E´
Proposed specification :
– depending on connection geometry (NST, hST, tST, DT, tT)• Category D
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Advanced Technology for Large Structural Systems CenterLehigh University
Choice 3 : Appendix D
Methodology for assessing fatigue performance of innovative connection details
– Analytical Protocols
– Experimental Protocols
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Advanced Technology for Large Structural Systems CenterLehigh University
AcknowledgementsSponsorsAASHTO / FHWA
TRB – NRC, National Academies
NCHRP Project Panel
DisclaimerThe opinions and conclusions expressed or implied in the presentation arethose of the research agency. They are not necessarily those of the AmericanAssociation of State Highway and Transportation Officials, or the individualstates participating in the National Cooperative Highway Research Program.
Research SupportState Departments of TransportationsMr. Reilly Thompson, Mr. Nirab Manandhar, Dr. Eric J. Kaufmann, Dr. Ben T. YenDr. Karl Frank, Dr. Justin Ocel, Mr. Carl MacchiettoValmont Inc.; Millerbernd Manufacturing; Union Metal
Research support at Lehigh University
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Thank You