Haskell 2012-13 USLI Project...

HASKELL INDIAN NATIONS UNIVERSITYROCKETRY TEAM

2012-13 University Space Launch Initiative (USLI) Project Proposal

August, 2012

Haskell Indian Nations University proposes to design and build a wooden rocket for entry into the 2012-13 University Space Launch Initiative. With safety as the team’s primary focus the team will construct an environmentally conscious rocket made entirely from non-toxic materials. This rocket will be designed to run on an Aerotech L2200 motor, fly to an altitude of approximately 5280 feet, and carry a sophisticated environmental science payload capable of measuring temperature, barometric pressure, relative humidity, and CO2 content of the atmosphere as a function of altitude. Throughout the design, construction, and flight of this rocket the Haskell Rocketry team will reach out to students in local area middle schools and high schools to involve them in the project hands-on.

“A very great vision is needed, and the man who has it must follow it as the eagle seeks the deepest blue of the sky.”

—Crazy Horse

HASKELL 2012-13 USLI PROJECT PROPOSAL August 31, 2012

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Table of Contents.......................................................................................................School Information 4

............................................................................................................Team Members 7

...................................................................................................Educational Outreach 8

..............................................................................................Facilities and Equipment 9

.................................................................................................Computer Equipment 11

....................................................................................Safety and Mission Assurance 12

........................................................................................HPR Laboratory Procedures 13

..................................................Hazard Recognition and Accident Avoidance Outline 18

...................................................................................................................General 18

...................................................................................................Caution Statements 19

.............................Haskell Indian Nation University Rocketry Team Safety Agreement 19

.....................................................................................................HINU Team Budget 23

.....................................................................................................Project Description 24

...................................................................................................................Payload 24

........................................................................................................Rocket Design 24

................................................................................................................Appendix A 27

................................................................................................................Appendix B 31

................................................................................................Pre-Flight Checklist 31

....................................................................MSDS: Elmer’s Carpenters Wood Glue 33

....................................................MSDS: 250 Gram Hide Glue CAS No. 9000-70-8 39.....................................................................................MSDS: Linseed Oil (Boiled) 43

......................................................................................................MSDS: Beeswax 48

..................................................................................................MSDS: Wood Dust 53

................................................MSDS: Benzomatic Lead-Free Silver Bearing Solder 59


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School Information

University Name Haskell Indian Nations UniversityTeam Name Haskell

Rocket Name TBDContest Name 2012-13 University Space Launch Initiative

Faculty Mentor Mr. Lucas Miller, [email protected], 785-749-1607Safety Officer Mr. Tyler Levier, [email protected], 785-608-1469

NAR/TRA Mentor Mr. William Bertoldi, Tripoli and NAR Level III Certified member

Haskell Indian Nations University is a federally funded institution whose mission is to provide a high quality collegiate education to American Indians and Alaskan Natives from all 555+ federally recognized Indian tribes.

The Haskell High Power Rocketry team has been building rockets since 2009, having entered rockets in the Milwaukee, WI based 2010, 2011, and 2012 First Nations Tribal College High Power Rocketry contests (FNL) and 2011 AISES Engineering Rocketry Challenge.. Haskell rockets performed admirably in each one. In 2010 Haskell took second place in the FNL contest with the Haskell Phoenix, see Figure 1. In 2011 Haskell took second place in the FNL contest with the Haskell SpaceEagle, see Figure 2. In 2011 Haskell took third place in the AISES Engineering Rocketry challenge with the Haskell GhostSpear, see Figure 3. In 2012 Haskell took second place in the FNL contest with the all-wooden Arrow of Knowledge, Figure 4. The Arrow of Knowledge will serve as an exact half-scale version of the rocket that Haskell plans to build for entry into the USLI competition.


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mailto:[email protected]




Figure 1: The 2010 Haskell High Power Rocketry team.

Figure 2: Haskell SpaceEagle on the launchpad.


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Figure 3: The 2011 Haskell GhostSpear

Figure 4: The 2012 Haskell Arrow of Knowledge.

Not all of these launches have been unqualified successes, and none of them have been perfect. Without exception, however, they have all been significant and inspiring learning experiences for all involved. The Haskell team has spent three years laying the groundwork to successfully


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participate and compete in the University Space Launch Initiative. With a large and talented team that is highly motivated to not only complete the contest, but to compete at the highest level, the Haskell High Power Rocketry team is looking way, way up to a whole new kind of ‘apogee’.

Team Members

Team Contact and Faculty Advisor: Lucas Miller, Professor of Mathematics, Haskell Indian Nations University, [email protected].

Bill Bertoldi: is a science teacher at Kingsford High School. He has advised the High Power Rocketry Program there since 1996. This program has won seven national and state education awards including being named the best science program in Michigan in 2006. He is the Prefect of Tripoli Upper Michigan and a level three member of both Tripoli and the National Association of Rocketry. For the past three years Bill has served as the safety officer for the First Nations Rocket Launch. This is a national rocket launch is in Wisconsin and sponsored by the Wisconsin Space Grant consortium, NASA, and the College of Menominee Nations.

Lucas Miller is a grant faculty member at Haskell Indian Nations University in Lawrence, Kansas. He serves as the Co-PI/Co-PD on the NSF sponsored Tribal College and Universities Program (TCUP) second initiation award. This will be the fourth consecutive year that he has sponsored high power rocketry teams, and he has high hopes for this year's team! Tyler Levier is a member of the Citizen Band Potowatomi Nation of Oklahoma, and is a senior in Business Administration. He will serve as the Student Safety Officer for the Haskell Rocketry Team. He is interested in mathematics, science, rocketry, and technology, and likes brainstorming “what-if” situations. He is fascinated by the precision planning involved in orchestrating a rocket launch.

Nia Schexnider is a sophomore in Environmental Science at Haskell Indian Nations University and is interested in Fisheries Biology. She loves the thought of exploring space and learning new things about the universe and how things work. She joined the Haskell/KU USLI competition team to see what it would take to build a rocket.

Dustin Ratcliff is an undergraduate at Haskell University. He is interested in expanding his scholastic career to include engineering physics (theoretical). His general interests include movies, enjoying activities outside, and contemplating the nature of this universe.

Babak Mardandoost is a civil engineer. He loves the thought of learning new things. Being a part of the Haskell USLI Competition would serve to encourage this self expansion into new avenues. Babak has been fascinated with airplanes and rocket models since he was a young boy.


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Steven P. Walker is an enrolled member of the Three Affiliated Tribes of North Dakota and is currently a Business Administration student at Haskell. Steven has exhibited a strong fascination with space and rocketry. He has completed two internships with NASA, the first at NASA Goddard Space Flight Center and the second at NASA Ames Research Center. Steven is excited to compete and learn the process NASA uses in launching their missions.

Thomas Zunie, Tyson Lake, Joshua Danny, Journey Jackson, Branson Lilburn, Chamisa Edmo, Heather Frost, Micheal Garcia, Wayne Yandell, Robert Castellanos, and Natasha Chenot are all Haskell Rocketry Team members as well.

Educational Outreach

A mission of the Haskell team is to educate and excite the community at large about science, technology, engineering, and mathematics. The team has made it a mission as vital as the rocket itself to engage fellow students and community members, and youth, with emphasis on harboring or instilling an enjoyment of scientific thinking, experimentation, and dreams of high power rocket flight.

The Haskell High Power Rocketry team will be utilizing both the great advancement of mainstream technology and social networking, along-side . A friendly, content-based website (www.woodenrocket.org) with growing SEO will allow rocket enthusiasts, students, parents, to learn about the team’s project and follow the actual design and construction through an informative and interesting blog updated in real-time. A Facebook page with pictures and enjoyable rocket links and info will offer a familiar social base to connect to other students, enthusiasts, and interested hopefuls coupled with a YouTube channel and a Twitter (@haskellrocket) feed so anyone can follow along and feel like a part of the team.. Informational booths on the Haskell campus are in the final stages of development including intentions to partner with such organizations as the American Indian Science and Engineering Society to effectively launch student interests and participation in science/math-based challenges and enrichment like this one.

Outreach events at local schools and development of learning bridges with reservation schools--which have populations of students which have historically been under represented in the areas of science, technology, engineering and mathematics—are paramount to the team’s outreach model for a richer, more diverse present and future scientific community. Additionally, campus-widepresentations are planned throughout the process to continue to inform and inspire present and future Haskell High Power Rocketry teams.

To ensure penetration, the teams will be providing updates to area newspapers, television stations, web publications, interested schools and teachers and other interested


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http://www.woodenrocket.org

http://www.woodenrocket.org

individuals and organizations pro-actively, along with postive participation in community-wide events.

Facilities and Equipment

Haskell Indian Nation University Rocketry Team has access to the laboratory in room 144 of Sequoyah Hall, the “Rocket Lab” or “HPR Laboratory”. It is 30 feet wide and 22 feet long. The room has a 10 ft. tall ceiling. The door is located on the NW corner of the room and measures 3 ft. in width. Four 1½ story windows are located on the east side of the room. There are two fire extinguishers in the lab. One is located beside the HVAC closet door in the SE corner of the room. The other fire extinguisher is located beside the entrance door. They are clearly marked by V-shaped signs. There is an emergency eye wash station located along the north wall on the west end toward the entrance door. This is also marked by a v-shaped sign. The First Aid Station is an industrial four-shelf unit located on the north wall towards the west end near the entrance door. This is also marked by a v-shaped sign. The MSDS sheets, Emergency Procedures Center, Right-to-know- Center, OSHA info Center, are located beside the entrance door as well.

The MSDS handbook is complete and up to date. It is located in the Emergency Procedures center on the west wall of the laboratory. Also located on the west wall are the Right to Know Center, the OSHA Info Center, federal and state all-in-one posters, blood borne pathogen poster, and the First Aid/CPR poster. Two Bodily Fluid Disposal Kits and Industrial Spill Kit are located on a shelf in the NW corner of the laboratory above the First Aid cabinet. A wall-mounted Hand Sanitizer station is located below the fire extinguisher near the exit door in the NW corner of the laboratory. Location of the phone the laboratory phone will sit on one of the storage shelves located on the north side of the room. See Figure 5.

The bulk of the ventilation in the Rocket Lab is provided by the Trane XE 90 HVAC unit housed in the SE corner of the laboratory. There is a 2 ft. by 1 ½ ft. air intake on the bottom of the HVAC closet, and two output vents located in a nine foot section of duct work that runs horizontally above the windows on the east side of the room. A large JET shop air filtration system, Model AFS-2000 has been mounted from the ceiling on the west side of the room. This unit will filter the air in the HPR Laboratory to the 5 micron level at least 20 times per hour. In addition to the laboratory wide ventilation a JET 708659K DC-1100VX-CK dust collector with a 2-Micron Canister kit will be used for local dust collection on all drilling, cutting, and sanding operations. Additionally, an Air King Model #9155 exhaust fan will be placed in the most northerly window on the east side of the laboratory. The Model #9155 is OSHA compliant, the window will be able to shut/lock behind the fan when necessary, and is capable of outputting 2470 cubic feet of air per minute.

The HPR Laboratory has a total of 22.5 ft. by 30 ft. by 10 ft. totaling in 6750 cubic feet. Thus the model #9155 will exchange the air in the HPR lab once every 2.73 minutes. Or approximately 22 times per hour. This is over four times the necessary air exchange rate for a typical woodshop.


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No extension cords will be run in places that present any sort or tripping hazard. One surge protector will be under the west most construction table and another surge protector will be under the east-most construction table. These will be connected to the southern wall and will be encased in cord protectors to minimize tripping hazards. In the hallway of Sequoyah Hall there will be lockers for students to store their personal protective gear and items. This will contribute to an uncluttered workspace in the laboratory.

Every student will have a set of ear muffs for sound protection, safety goggles and dust mask that they will individually label and store in a Ziploc bag when not in use. Each student will change out their dust mask every week. Hand and power tools will be stored on and in the tools table located between the two main project tables. A flameproof cabinet will be located in the NE corner of the laboratory for storage of any flammable materials. Storage shelves will be located on the North side of the room to store equipment and supplies.


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Figure 5: Room 144 SQ "Rocket Lab" Safety Corner

Computer Equipment

All members of Haskell Indian Nation University Rocketry Team have access to a variety of computers in the HPR Laboratory to aid in the design, simulation, modeling, and analysis of


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the team’s designs. Internet connection is available in the computer labs, as will a poster printer, scanner, and a commercial high-quality laser printer,

Haskell has a license for the program RockSim which will be crucial for the design and modeling of the competition rocket. Communal files, such as the most current version of the team’s Rocksim designs and draft versions of project reports, will be held in a shared Dropbox folder to which all team members have access.

We will also be designing and modeling the team’s rocket with SolidWorks for inclusion in the PDR, CDR, FRR, and PLAR reports.

Safety and Mission Assurance

The Haskell Indian Nation University Rocketry Team is fully student lead. The team’s faculty sponsor is Mr. Lucas Miller. To ensure that all federal, state, and institute rules are followed the team advisor, Mr. Lucas Miller, the team’s Safety Officer, Mr. Tyler Levier, and the team’s NAR/TRA Advisor Mr. Bill Bertoldi will review all steps of the design, construction and testing process. Flight testing of the rockets will be conducted with assistance of the team’s NAR representative.

Mr. William Bertoldi is a NAR and TRA Level III certified member. He will be responsible for handling and loading of the rocket motor reloads. He will also be responsible for the purchase, safe storage, and transportation of the rocket motors when necessary. Mr. Bertoldi will also be on location whenever the rocket is being launched. In addition Mr. Kent Burnett and Mr. Bob Brown who are both Tripoli Rocketry Association Technical Advisory Panel Members will be assisting. Every step of the construction process will be videotaped, uploaded to YouTube, and be observed by the team’s three safety advisors. Any safety concerns will be reported to the Lab Director and Faculty Sponsor, Mr. Lucas Miller, and immediately addressed. The Team will produce four reports (Project Proposal, Preliminary Design Review, Critical Design Review and Flight Readiness Review) detailing the design of the rocket, models and rocket simulation, rocket construction/testing, and flight procedures for review by USLI officials. All safety concerns raised by these reviewers will be addressed by the Haskell rocketry team. In the two days prior to launch the Haskell rocket will undergo a through mechanical safety check in person by NAR and FNL personnel. If the rocket does not pass this check it will not be allowed to fly. Before being placed on the launch pad the Haskell rocket will undergo another mechanical safety check by the Range Flighty Safety Officer.

All members of the Haskell High Power Rocketry team will adhere to the HPR Laboratory procedures at all times.


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HPR Laboratory Procedures

1. Student, visitor, and staff traininga. One week Orientation Safety Training

All students, visitors, and staff will be given a minimum of one week of safety training before they are allowed to enter or visit the HPR Laboratory during shop hours. At the end of this training all students, visitors, and staff must pass the Laboratory Safety Test at a 100% level to be granted HPR Laboratory shop privileges. A student must attend all safety sessions on time or THEY WILL NOT be granted HPR laboratory shop privileges. Copies of all Shop Safety Tests will be kept on file in the HPR Laboratory in a locked filing cabinet..

• Students will be instructed in the proper use and maintenance of Personal Protective Equipment (PPE); when PPE is necessary; what PPE is necessary; how to properly don, doff, adjust and wear PPE, the limitations of PPE; and the proper care, maintenance, useful life and disposal of PPE.

• Students must demonstrate an understanding of the training and the ability to use PPE properly before being allowed to perform work in the HPR laboratory.

• Students will be retrained whenever changes in the HPR Laboratory or changes in types of PPE make previous training obsolete.

• Written certification for each student who has received PPE training will be kept that includes the following: a statement indicating the student understood the training; the name of the student trained; the date(s) of the training; and the subject of certification.

• All students will be provided with a copy of Appendix D as recommended by NIOSH.

b. Violation of Safety Protocols

All students, visitors, and staff must abide by shop safety rules at all times. Violation of these rules will result in temporary or permanent loss of shop privileges, potentially result in a failing grade for the course, expulsion from a laboratory project, and/or result in an official incident report.

c. Signed copy of the HPR Laboratory rules must be on file


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All students must have a signed copy of the HPR Laboratory rules on file before they are allowed to use the HPR Laboratory during shop hours.

d. Signed copy of the HPR Lab Shop Safety card must be on file

All students must have their HPR Lab Shop Safety card initialed by the HPR Lab Director for a particular tool before they are allowed to use that tool. The HPR Lab Director will only initial a student’s shop safety card for a particular tool if they taken and passed the Shop Tool Safety Quiz for that tool at the 100% level.

e. Logs of all Shop Safety Training documents must be on file

Copies of all Safety Training attendance records, signed and dated Shop Safety Rules sheets, Shop Safety Cards, Shop Safety Tests, and Shop Tool Safety Quizzes will be kept in a locked filing cabinet in the HPR laboratory.

2. Shop Maintenance and Safety Procedures

What must occur before any work is completed in the HPR Laboratory:• All of the NIOSH Safety Checklists must be completed, and any problems

identified must be corrected before work can occur in the HPR Laboratory. • A Noise Survey will be conducted by Cintas FirstAid and Safety using an ANSI

Type 2 sound level meter before any work can begin in the HPR Laboratory. Under no circumstances will students or the HPR Laboratory Director be exposed to an 8-hour time averaged exposure to 85dB of sound or greater, or all laboratory operations will cease immediately.

• The HPR Laboratory Director must complete CPR and First Aid training.

a. Constant routinei. All tools, bits, and equipment will be returned to their home after use.ii. Trash will be thrown away immediately.iii. If you got it out, put it back.iv. If you made a mess, clean it up.v. The shop will be kept in an orderly and clean condition at all times.vi. Used/old batteries will be placed in the battery recycling bag located in the

under-window storage area.vii. All live batteries will be stored in a manner so that it is impossible for

their electrodes to be accidentally short circuited. This could include isolating the battery and/or covering the electrodes.

viii.Any broken or malfunctioning equipment or power tools will be immediately “Locked-out/Tagged-out” by trained personnel. See Appendix H for the Haskell Lockout/Tagout procedures.

b. Daily routine


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i. All equipment of every sort will be powered down and unplugged before the close of the day.

ii. The shop floor will be vacuumed before the close of each day.iii. All damaged or defective PPE equipment will be discarded.

c. Weekly routinei. The HVAC filter in Room 144 Sequoyah will be checked and, if

necessary, replaced at the end of each week.ii. The JET shop external air filter will be cleaned.iii. All blade saws and bits will be checked for sharpness and integrity and, if

necessary, replaced.iv. All dusk masks will be replaced.v. The shop floor will be mopped.

d. Quarterly routinei. Fire extinguishers will be checked for correct operation.ii. Old batteries will be taken to the 12th Street Recycling area for disposal.

The receipt for these batteries will be stored in the laboratory filing cabinet.

e. Annual routinei. All shop machines and power tools will receive appropriate annual

maintenance and, if necessary, replaced.ii. The HPR Laboratory will be inspected by the Haskell Safety Officer.iii. The HPR Laboratory SOP will be updated on a regular basis. Annually, or

after significant changes, it will be submitted to the Haskell Safety Officer, Chair of the Haskell Department of Mathematics, and the Dean of Mathematics and Natural Sciences for approval and signature.

iv. All applicable NIOSH Safety Checklists must be completed on an annual basis.

v. Cintas FirstAid and Safety will change the water in the Emergency EyeWash station twice per calendar year.

f. Logs and Maintenance recordsi. Maintenance records will be kept for all daily, weekly, quarterly, annual

routines, and the NIOSH Safety Checklists. These records will be stored in a locked filing cabinet in the HPR laboratory.

3. MSDS Sheets, chemical labeling, and chemical disposal

a. An MSDS logbook of all shop chemicals will be maintained and displayed in a prominent place in the HPR laboratory. A copy of all MSDS sheets will be given to Haskell Facilities.

b. All chemicals of any sort stored in the HPR Laboratory will be stickered with the appropriate NFPA chemical hazard labels.

c. An HPR Lab Chemical Log book will be displayed in a prominent place in the HPR laboratory. Each chemical will be clearly labeled (including a picture), and


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the personal protective gear and shop protocols for using that chemical will be detailed. No one will use any chemical in the HPR lab without using the appropriate protective gear and abiding by the shop protocols for that chemical.

d. No chemicals will be used in Room 144 Sequoyah that mandate the use of fume hoods or chemical respirators. Exposure levels to any and all chemical fumes will be kept well below unsafe limits at all times.

e. No chemicals known to be endocrine disruptors will be used in the HPR laboratory.

f. All chemicals and excess materials will be disposed of in a manner congruent with the recommendations in their MSDS sheets. A log of all chemical disposals will be kept.

4. Signage

• Laboratory rules will be posted in large on the wall of the HPR Laboratory. • Signs for the exits, fire extinguishers, first aid station, eye wash station, and

MSDS sheets will also be displayed. • General safety reminder signs will be displayed whenever possible. • All entrances to the HPR Laboratory will be posted with PPE requirements.• The OSHA noise standard and the OSHA safety poster (Form 3165) will be

displayed on the classroom wall.

5. Occupancy

The occupancy of Room 144 SQ during the spring semester of 2012 will be limited to 12 students, 1 instructor, and 2 visitors for a total of 15 people during shop hours. During non-shop hours the total occupancy of 144 Sequoyah may not exceed 20 persons.

6. Power Tools

a. Will be maintained in a safe condition.b. Will be equipped and used with guards whenever possible.c. Will always be used with necessary PPE.d. All hand held powered drills, belt sanders, saber/scroll/jig saws and other similar

power tools will be equipped with a constant pressure switch or control. Note: They may be equipped with a lock-on control provided the turnoff can be accomplished by a single motion by the same finger or fingers that turn it on.

e. All portable electrically powered tools must be properly grounded or doubly insulated.

f. The wooden handles of all tools must be kept free of splinters and cracks, and must be tightly affixed to the tool (or they will be replaced).

g. It is prohibited to lower or hoist a tool by its cord.


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h. All woodworking tools must meet American National Standards Institute (ANSI) safety codes.

Safety PlanThe NAR mentor will assist and provide supervision for the following actions:

• Transport and handling of all explosives and materials used to provide thrust for the flight of the proposed rocket.

• Assurance of the proper placement and installation of all pyrotechnics used for the deployment of payload and recovery systems.

• Verification of the aerodynamic and stability geometry of the proposed rocket required for stable flight.

• Proper launch and recovery of the proposed rocket.

The above list of actions should insure that the group is in compliance with the NAR Safety Code of High Power Rocketry (http://www.nar.org/NARhpsc.html) Before construction on any part of the rocket is started, a meeting will be held to review safety regulations.

Before any motor or launch test are performed all team members will review the NAR high power rocket safety codes. During this review, the team members will discuss the schedule of events for the test. By reviewing the schedule of events, each team member will be aware of the procedures and expected outcome of each test.

In all documents pertaining to design, construction, and launch of the proposed rocket, risks that are identified prior to completion of that document will be visibly identified to ensure the safety of all team members. The MSDS for all materials used during the construction of the proposed rocket will be reviewed by all team members handling the material.

• Abidance of Federal, State, and Local laws Haskell Indian Nation University Rocketry Team will abide by all laws and regulations of the

Haskell Indian Nations University, the City of Lawrence, the State Of Kansas, the FAA, and the ATF.

• Purchasing and Storing of Explosives In order to be compliant with the procedures and regulations, Haskell Indian Nation

University Rocketry Team will not directly purchase, transport, or possess any explosive used in


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the proposed rocket. These materials will only be purchased, transported and stored by a qualified person, such as the NAR mentor.

• Transporting of Explosives to FNL Competition Site Following the guidelines specified above, the team’s NAR mentor will provide

transportation of all thrust producing devices and deployment pyrotechnics to the launch site. This is the best way to ensure that all State and Federal Laws are being abided by.

• Range Safety All members will be advised of all aspects of launch range safety regulations and

guidelines prior to arrival at launch site. It will be understood prior to launch that the Range Safety Officer has the final say on all matters pertaining to the rocket. The team will comply with any suggestions made by the person who performs the safety check of the rocket. It is understood that if the team does not comply with the RSO. He/she has the right to deny a launch for safety reasons.

Hazard Recognition and Accident Avoidance Outline

General

A. Always ask a knowledgeable member of the team if unsure about:1. Equipment2. Tools3. Procedures4. Materials Handling

B. Other concerns 1. Be aware of your own actions and those of others around you2. Point out risks and mitigate them3. Review procedures and related MSDS before commencing potentially hazardous actions

C. Safety Equipment1. Only close-toed shoes may be worn in lab2. Always wear goggles in lab3. Always use breathing equipment, i.e. face masks, respirators, etc, where applicable5. Always wear gloves where applicable, e.g. when handling epoxy and other chemicals


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6. Always wear hearing equipment while operating power tools.

I. Chemicals

A. The following are risks of chemical handling:1. Irritation of skin, eyes, and respiratory system from contact and/or inhalationof hazardous fumes2. Secondary exposure from chemical spills3. Destruction of lab space

B. Ways to mitigate these risks:1. Whenever using chemicals, refer to MSDS sheets for proper handling2. Always wear appropriate safety gear3. Keep work stations clean 4. Keep ventilation pathways clear5. Always wear appropriate clothing

II. Equipment and Tools

A. The following are risks of equipment and tool handling:1. Cuts2. General injury

B. Ways to mitigate these risks:1. Always wear appropriate clothing (ex. Close toed shoes, apron etc.)2. Always wear appropriate PPE3. Always ask if unsure4. Err on the side of caution

Caution Statements

Caution statements will be printed into all plans, procedures, and all other workingdocuments that are related to risky activities. The documents include, but not limited to: checklists, operating procedures, lay-up procedures, and chemical handling procedures.MSDS for all materials used in the lab will be available in the lab and on the teamwebsite. See Appendix A for a list of all relevant MSDS.

Haskell Indian Nation University Rocketry Team Safety Agreement


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By signing this document I agree to abide by all of the laws, regulations, safety standards and procedural guidelines in the High Powered Rocketry Guidelines, the National Association of Rocketry Handbook, the Academy of Model Aeronautics Handbook, all pertinent Federal Aviation Regulations relating to high powered rocketry, all Kansas Environment and Safety Laws, and any material Safety Data Sheets (MSDS) for all materials used from the design to the conclusion of the HINU Rocket Team’s entry into the University Student Launch Initiative (USLI).

By signing this document I also agree to abide by and/or accept any ruling of or command given by the Range Safety Officer (RSO). I understand that if any single member of the team does not comply with the Safety and Mission Assurance (S&MA), the team will not be allowed to launch any rocket. I agree to abide by the Minimum Distance Table when launching any rocket in any state for any purpose related to HINU Rocket Team’s entry in the University Space Launch Initiative competition, whether it is for testing, National Association of Rocketry (NAR) certification, or any other purpose.

In addition, I agree to abide by any commands, rules, and procedures outlined by the HINU Rocket Team’s Environment, Health, and Safety (EHS) representative, Team Faculty Advisor, and Team Leader at all times when working on anything related to USLI, working in the HINU Rocket Team’s laboratory, or during any Haskell Rocket Team related launch even when these safety rules go beyond what is required by any code or handbook mentioned in the first paragraph. I agree to use laboratory equipment related to the manufacture of composites only under the supervision of the HINU Rocket Team Leader until granted permission to do so without supervision by the HINU Rocket Team Leader or another person who has been approved with the power to grant permission to do so without supervision.

I understand that my failure to comply with any of the above statements can result in me being permanently disbanded from the Haskell University Rocket Team and all activities related to the USLI.

(Team Members who have agreed to this have printed and signed their name below as well as the date they have signed.


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Timeline

Activity Early SeptLate SeptEarly OctLate OctEarly NovLate NovEarly DecLate DecEarly JanLate JanEarly FebLate FebEarly MarLate MarEarly AprLate AprEarly MayUSLI Deadlines & ReportingUSLI Deadlines & ReportingUSLI Deadlines & Reporting

Schools notified of selection Sept 27thSept 27thSept 27thTeam teleconference Oct 4thOct 4th

Web presence established deadline Oct 22ndOct 22ndOct 22ndPDR Q&A Oct 11thOct 11th

PDR (Rough Draft)PDR (Final Draft)

PDR slides due (8am CST) Oct 29thOct 29thPDR presentation Nov 7-16Nov 7-16Nov 7-16

CDR Q&A Dec 3rdDec 3rdCDR (Rough Draft)

CDR (Final Draft)CDR slides due (8am CST) Jan 14thJan 14th

CDR presentation Jan 23-31Jan 23-31Jan 23-31FRR Q&A Feb 11thFeb 11th

FRR (Rough Draft)FRR (Final Draft)

FRR slides due (8am CST) Mar 18thMar 18thMar 18thFRR presentation 3/28 - 4/33/28 - 4/33/28 - 4/3

PLAR slides due (8am CST) May 6thWinning USLI team announced May 17th

USLI Flight CompetitionUSLI Flight CompetitionPack up lab for Huntsville trip Apr 16thApr 16th

Leave for Huntsville (6am CST) Apr 17thApr 17thTeam lead meeting (5:30pm) Apr 17thApr 17th

Launch Readiness Review (LRR) begin (6:30) Apr 17thApr 17thLRR's continue Apr 18-19Apr 18-19

Launch Day Apr 20thApr 20thLaunch Day rain day Apr 21stApr 21st

Return from Huntsville Apr 21stApr 21stHalf-scale model construction and launchHalf-scale model construction and launchHalf-scale model construction and launchHalf-scale model construction and launchHalf-scale model construction and launchHalf-scale model construction and launch

Safety TrainingDesign

Construction of stavesstave barrel construction


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stave plate construction and installationFin construction

Bulkhead constructionAltimeter sled construction

Altimeter installationNosecone construction

Rocket assembly and fittingEjection charge testing

Final sanding and woodburningWeighing components for input into Rocksim

Pack up lab for Argonia Trip Dec 7thDec 7thArgonia Launch Day Dec 8thDec 8thFull-scale model construction and launchFull-scale model construction and launchFull-scale model construction and launchFull-scale model construction and launchFull-scale model construction and launchFull-scale model construction and launch

Safety TrainingDesign

Construction of stavesstave barrel construction

stave plate construction and installationFin construction

Bulkhead constructionAltimeter sled construction

Altimeter installationNosecone construction

Rocket assembly and fittingEjection charge testing

Final sanding and woodburningWeighing components for input into Rocksim

Pack up lab for Argonia Trip TBDTBDArgonia Launch Day TBDTBD


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HINU Team Budget


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Project Description

PayloadOur intent is to fly a sophisticated environmental science payload that will measure and

record barometric pressure, air temperature, Earth’s magnetic field, relative humidity, and CO2 content as a function of altitude. The Haskell High Power Rocketry Team will compare the resulting datasets to a variety of theoretical models.

Essentially the Haskell High Power Rocketry Team are constructing a small scale “sounding” rocket that could be reasonably scaled up to take data at much higher altitudes.

In addition to the scientific parameters that have already been discussed the Haskell High Power Rocketry Team should also be able to locate the atmospheric “boundary layer”. This is the layer of the atmosphere that is directly impacted by the surface. It should be located about a mile above the surface, and it’s the layer that holds regional pollution, and changes on a daily/seasonal basis. The boundary layer height is often used as an input for computational models describing the retention and distribution of smog and other pollutants.

See Appendix A for a quantitative discussion of how the Haskell High Power Rocketry Team expects temperature, barometric pressure, and Earth’s magnetic field to vary as a function of altitude.

To do this the Haskell High Power Rocketry Team are going to be using an ADIS-16488(with associated power source and DSP), that will be running a HMP50-L Visalia Temperature sensor, and a Visalia PTB110 Barometer. In addition to this instrumentation the ADIS-16488 will be using the ADSP-BF592 as the Digital Signal Processor (DSP) to convert the information into usable data. The payload has a total weight of 8 pounds and will fit into a cylindrical tube with an inner diameter of 4.86 inches.

Rocket Design

The Haskell “Arrow of Knowledge” will be made entirely out of wood. What type of wood is as yet an undecided question. On the one hand, Sitka spruce is the strongest wood in the world in terms of strength to weight. However, using spruce would result in rocket of larger diameter and thus a higher drag coefficient. It may be possible to use a hardwood, e.g. red oak that will result


pg. 24

in a heavier rocket but with a lesser diameter. The competing demands of weight vs. diameter are still issues that are being investigated by the Haskell team.

All of the team’s tubes (payload, forward assembly, rear assembly, and payload housing) will be made from 24 tapered staves cut from vertical grain lumber. These will then be rolled into a tube and glued together with Titebond III wood glue. Eventually they will be sanded, wood burned with logos and designs, and then shellacked.

This process was developed in the spring of 2012. A proof of concept flight was completed in April of 2012. Many small modifications need to be made to the team’s process and design in order to achieve perfection, however.

Each tube will be outfitted with two end-caps cut out of ¾” 20-ply aircraft grade Baltic birch plywood, called stave plates, at each end of the tube. The stave plates will be glued, and individually doweled to each of the staves. These plates will reinforce the tubes and prevent tube-zippering.

Figure 6: Rocksim data of the half-scale model of the Arrow of Knowledge


pg. 25


pg. 26

Appendix A

Figure 2. Altitude vs. Barometric Pressure (lapse rate equals zero)

Figures 2 is a graph created to show the predicted relationship of altitude to barometric pressure. These two figures above show almost the same results as one another but there are some variation in the results. The difference comes from having used two different equations. In Figure 1 the equation is given by,

Where: P is Barometric Pressure

Subscript b indicates atmospheric layer (0 = sea level, 1 = troposphere … 6 = exosphere) [b = 0]

Pb is Static Pressure at sea level [101,325 Pa]Tb is the standard temperature at sea level [288.15 K]Lb is the standard temperature lapse rate [-0.00649 K·m-1]h is the height above sea level [1 to 3048 m]hb is the height of the bottom of the atmospheric layer [0 m]go is the standard gravitational acceleration [9.80665 m·s-2]M is the molar mass of Earth’s air [0.0289644 kg·mol]R* is the Universal gas constant [8.31432 N·m·(K·mol)-1]

Is used to attempt to predict the barometric pressure with altitude being the independent variable. This equation is used when the standard temperature lapse rate does not equal zero. When the lapse rate does equal zero, to attempt to predict the barometric pressure, the second equation must be used instead. This second equation is what produced the second graph in Figure 3. The 2nd equation is,

.

This equation uses the same variables as the 1st equation; the only difference is that there is no standard temperature lapse rate. the Haskell High Power Rocketry Team believe that when the


pg. 27

Haskell High Power Rocketry Team collect the data and plot altitude to barometric pressure, the 1st equation is going to better fit the data.

Figure 3. Altitude vs. Temperature.

Figure 3 is the graph created to show the predicted relation of altitude to temperature. The graph shows that as altitude increases, temperature is predicted to decrease at a linear rate. The equation used to create the graph in figure 4 is,

Where: T = TemperatureTo is the standard temperature at sea level [288.15 K]L is the standard temperature lapse rate [0.00649 K·m-1]h is the altitude above sea level [1 to 3048 m]


pg. 28

Figure 4. Altitude vs. Absolute Humidity.

Figure 4 is the graph created to show the predicted relation of altitude to the maximum specific humidity (also known as Absolute Humidity when relative humidity is at 100%). The Haskell High Power Rocketry Team was unable to find a suitable equation for relative humidity as a function of altitude. That was due to needing to actually have an empirical data point to start with. Instead the Haskell High Power Rocketry Team have decided to attempt to model what the Haskell High Power Rocketry Team expect to see once the Haskell High Power Rocketry Team have collected the data and plot altitude verse the absolute humidity. The equations used to predict the Absolute Humidity in relation to altitude is a two part equation. The Maximum Specific Humidity equation is,

SHmax = 4.237e0.061t

where t is the predicted air temperature from the equation used to form figure 4.

The second equation needed is,

RH = AH/SHmax => RH*SHmax = AH


pg. 29

Where RH is the relative humidity

AH is the absolute humidity

SHmax is the maximum specific humidity

This prediction model assumes that the relative humidity is close to being 100% which means that the absolute humidity is equal to the maximum specific humidity. In the prediction model, since RH is equal to 100%, the dew point temperature will be the same as the air temperature. This is why plugging in the altitude/temperature equation into the temperature variable in the SHmax equation is acceptable.

We will be able to do a comparison of the theoretical model versus an empirical model due to the science payload section will be collecting data for both air temperature and relative humidity. Once the Haskell High Power Rocketry Team has those data, the Haskell High Power Rocketry Team will be able to find the maximum specific humidity by finding the dew point temperature. The dew point temperature is related to the relative humidity and the air temperature through the two equations,

where,

T = Air temperature RH = Relative Humidity a and b are constants, a = 17.271 and b = 237.7

Once the Haskell High Power Rocketry Team has found the dew point temperature, the Haskell High Power Rocketry Team plugs it into the team’s maximum specific humidity equation. Then using the equation,

AH = RH*SHmax

We can compare it to the team’s theoretical model.


pg. 30

Appendix B

Pre-Flight Checklist• Check batteries for all electronics; exchange any old batteries out for new ones.• Prepare the motor per packaged instructions for launch.• Select correct size igniter for engine. Inspect for continuity, resistance, and check for

any flaws.• DO NOT install igniter until rocket is secure on the pad.• Check Drogue and Main parachutes:• Check shock cords for cuts, burns, and tangles on the Drogue and Main parachutes.• Check all shroud lines• Check the parachutes for tears and burns.• Check deployment bags for tears.• Check all connections, insure all devices are in good condition and properly secured.• Fold the Drogue and Main parachutes according to manufacturer’s instructions.• Insure Shroud lines are free from tangles after folding.• Check to make sure all quick links are secure.• Pack the parachutes into their designated sections.• Pack in chute protectors to protect the chutes from the ejection charges.• Prepare Electronics:• Be sure all arming switches are off and all instruments in payload are off.• Double check all batteries.• Check the altimeters to make sure they have been properly programmed.• Check on the science payload to ensure all instruments are secured in place and are in

working order.• Insure all pyrotechnics are in disarmed mode during electronics final installation.• ENSURE ALL ARMING AND POWER SWITCHES ON THE ALTIMETERS AND

ELECTRONICS IN THE SCIENCE PAYLOAD ARE OFF.• Check to make sure wires for apogee and main ejection charges have not been

reversed.• Note: All pyrotechnic devices need to remain in unarmed mode until the rocket is on

the pad ready to be launched.• Note: Keep all loaded charges pointed away from self and other individuals.• Pyrotechnics:• CLEAR PEOPLE FROM IMMEDIATE AREA IN FRONT OF CHARGE PREP

AREA!• PUT ON SAFETY GLASSES!!• Check ejection charges for integrity.• Load canisters with black powder charges• Load charges into rocket• Recheck to verify that apogee and main ejection charges have not been reversed.• Insure all electronically discharged pyrotechnics are disabled until final launch

readiness.


pg. 31

• Motor:• Tape motor casing for snug fit in motor tube• Install motor• Install motor retaining devices• Insure all electronic deployment devices are in safe mode• Final Launch Preparations:• Clear launch pad of debris• Load rocket on launch rod• Insert igniter. Be sure it is completely forward and touching fuel grain.• Secure igniter in position• Assure that launcher is not hot. Disconnect battery from relay box. Assure that the

key IS NOT in the remote control device and that the arming switch is OFF.• Attach leads to ignition device• Be sure all connectors are clean• Be sure they don’t touch each other or that circuit is not grounded by contact with

metal parts• Check tower’s position and be sure it is locked into place and ready for launch.• Assure that the key IS NOT in the remote device and that the arming switch is still

OFF.• Connect battery to relay box.• Launch Sequence• Arm all devices for launch• Turn on all science payload instruments• Insure all electronics are working as intended.• Signal that rocket is ready for launch.• Launch when given the ‘go-ahead’• Misfire Procedures• Safe all pyrotechnics to pre-launch mode• Turn OFF altimeter power. Power MUST REMAIN off for at least 1 minute before

turning it back on.• Remove failed igniters• Restart check list from Final Launch Preparations.


pg. 32

MSDS: Elmer’s Carpenters Wood Glue

1. Chemical Product and Company Identification DESCRIPTION: ELMER'S CARPENTERS WOOD GLUE PRODUCT TYPE: PVAC BASED ADHESIVE APPLICATION: FOR PRODUCT CODES SEE SECTION 16

• Manufacturer/Supplier Information MSDS Prepared by: Elmer's Products, Inc. Emergency Phone Number 460 Polaris Parkway Poison Control Center The Haskell High Power Rocketry Teamsterville, OH 43082 1-888-516-2502 For additional health, safety or regulatory information, call 1-888-435-6377 Call 1-800-848-9400 to place an order or request additional MSDSs.

2. Composition, Information on Ingredients No hazardous ingredients known to company.

3. Hazards Identification

3.1 Emergency Overview Appearance Light yellow liquid Odor Mild acetic aroma Not an immediate health hazard.

• HMIS Rating HEALTH = 0 (minimal) FLAMMABILITY = 0 (minimal) REACTIVITY = 0 (minimal)

3.2 Potential Health Effects


• Immediate Hazards INGESTION: No hazards known to company. INHALATION: No hazards known to company. SKIN: No hazards known to company. EYES: No hazards known to company.

• Delayed Hazards None of the components present in this product at concentrations equal to or greater than 0.1% have been listed by NTP, classified by IARC, nor regulated by OSHA as a carcinogen.

4. First Aid Measures INGESTION: If accidentally swallowed, dilute by drinking large quantities of water. Immediately contact poison control center or hospital emergency room for any other additional treatment directions. EYES: Immediately flush eyes with plenty of water. Call a physician if irritation persists.

5. Fire Fighting Measures Autoignition Temperature Not available Upper/Lower Flammable Limits Not applicable Up/Lower Explosive Limits, % by Vol Not applicable Flash Point Not applicable Will not burn unless water has evaporated. Dried material may burn. In case of fire, water should be used to keep fire-exposed containers cool.

6. Accidental Release Measures Soak up with absorbent material and remove to a chemical disposal area. Prevent entry into natural bodies of water.

7. Handling and Storage

7.1 Handling Handle in accordance with good industrial hygiene and safety practices.


Haskell High Power Rocketry Laboratory SOP

7.2 Storage Keep from freezing. Store in a cool, dry place. Keep containers tightly closed.

8. Exposure Controls/Personal Protection

8.1 Exposure Controls No special control measures necessary under normal conditions of use.

8.2 Personal Protection No special protection necessary.

8.3 Exposure Guidelines None established

9. Physical and Chemical Properties Percent Volatiles 54.5 pH @ 25 C 5.0 Specific Gravity 1.08 Appearance Light yellow liquid Autoignition Temperature Not available Boiling Point 100°C (212°F) Vapor Density (Air=1) <1 Vapor Pressure, mm Hg @ 20 C 17.5 Evaporation Rate (Butyl Acetate=1) <1 Upper/Lower Flammable Limits Not applicable Up/Lower Explosive Limits, % by Vol Not applicable Flash Point Not applicable Freezing Point 0°C (32°F) Odor Mild acetic aroma Odor Threshold, ppm Not available Solubility in Water Dispersible Coefficient of Water/Oil Distrib. Not available

10. Stability and Reactivity Normally stable as defined in NFPA 704-12(4-3.1).



• Incompatibilities: Strong acids and alkaline materials.

• Decomposition products may include: CO, CO2.

• Hazardous polymerization: Will not occur.

• Other Hazards: None known to company.

11. Toxicological Information INGESTION: A similar product was found to be non-toxic orally when tested as described in 16 CFR Part 1500.3(c)(1) and (2). INHALATION: A similar product was found to be non-toxic by inhalation when tested as described in 16 CFR Part 1500.3 (c)(1) and (2). SKIN A similar product was found to be non-toxic dermally ABSORPTION: when tested as described in 16 CFR Part 1500.3 (c)(1) and (2). SKIN: A similar product was not an irritant when tested as described in 16 CFR Part 1500.41. EYES: A similar product was not an irritant when tested as described in 16 CFR Part 1500.42.

12. Ecological Information Not determined.

13. Disposal Considerations Recover free liquid. Absorb residue and dispose of according to local, state/provincial, and federal requirements.

14. Transport Information



14.1 U.S. Department of Transportation (DOT) The data provided in this section is for information only and may not be specific to your package size. You will need to apply the appropriate regulations to properly classify your shipment for transportation. Non-Regulated.

14.2 Canadian Transportation of Dangerous Goods (TDG) Non-Regulated.

15. Regulatory Information (Selected Regulations)

15.1 U.S. Federal Regulations

• OSHA Hazard Communication Standard 29CFR1910.1200 This material is not a "health hazard" or a "physical hazard" as determined when reviewed according to the requirements of the Occupational Safety and Health Administration 29 CFR Part 1910.1200 "Hazard Communication" Standard.

• SARA Title III: Section 311/312 Does not meet any hazard category

• SARA Title III Section 313 and 40 CFR Part 372 This product contains the following toxic chemical(s) subject to the reporting requirements of Section 313 of Title III of the Superfund Amendments and Reauthorization Act of 1986, and Subpart C-Supplier Notification Requirement of 40 CFR Part 372. None required per SARA TITLE III SECTION 313.

• TSCA Section 8(b) Inventory All reportable chemical substances are listed on the TSCA Inventory. The Haskell High Power Rocketry Team rely on certifications of compliance from the team’s suppliers for chemical substances not manufactured by us.



15.2 Canadian Regulations

• Workplace Hazardous Materials Information System (WHMIS) This product has been classified in accordance with the hazard criteria of the Controlled Products Regulation (CPR) and the MSDS contains all the information required by the CPR. Not a controlled product

• Canadian Environmental Protection Act (CEPA) All reportable chemical substances are listed on the Domestic Substances List (DSL) or otherwise comply with CEPA new substance notification requirements.

• National Pollutant Release Inventory (NPRI) This product contains the following chemical(s) subject to the reporting requirements of the Canadian Environmental Protection Act (CEPA) subsection 16(1), National Pollutant Release Inventory. None required.

16. Other Information AP (Non-Toxic): Products bearing the AP (Non-Toxic) Product Seal of The Art & Creative Materials Institute, Inc. (ACMI) are certified in a program of toxicological evaluation by a medical expert to contain no materials in sufficient quantities to be toxic or injurious to humans or to cause acute or chronic health problems. This program is reviewed by ACMI's Toxicological Advisory Board. These products are certified by ACMI to be labeled in accordance with the chronic hazard labeling standard, ASTM D-4236 and Federal Law, P.L. 100-695. In addition, there is no physical hazard as defined within 29 CFR Part 1910.1200(c). MSDS covers items: U.S.: E614, E700, E701, E702, E704, E705, E706, E970, E980, E1367, E1825, E1850, E67000, E7000, E7010, E7020, E7040, E7050 Canada: 60613, 60614, 60615, 60616, 60617, 60618, 60619, 61367

• User's Responsibility The OSHA Hazard Communication Standard 29CFR 1910.1200 and the Workplace Hazardous Materials Information System (WHMIS) require that the information contained on these sheets be made available to your workers. Educate and train your workers regarding OSHA and WHMIS precautions. Instruct your workers to handle this product properly.



Consult with appropriate experts to guard against hazards associated with use of this product and its ingredients.

• Disclaimer SELLER MAKES NO WARRANTY, EXPRESS OR IMPLIED, CONCERNING THE PRODUCT OR THE MERCHANTABILITY OR FITNESS THEREOF FOR ANY PURPOSE, except that the Product shall conform to contracted specifications, and that the product does not infringe any valid United States or Canadian patent. No claim of any kind shall be greater in amount than the purchase price of the quantity of product in respect of which damages are claimed. In no event shall Seller be liable for incidental or consequential damages, whether Buyer's claim is based on contract, breach of warranty, negligence or otherwise.

CURRENT ISSUE: 05-MAY-11 PREVIOUS ISSUE: 30-JUN-10

MSDS: 250 Gram Hide Glue CAS No. 9000-70-8

1. MATERIAL IDENTIFICATION Date: August 31, 2012 Product: 250 Gram Hide Glue CAS No. 9000-70-8 Synonyms: Animal Glue, Industrial Gelatin

COMPANY IDENTIFICATION

MILLIGAN & HIGGINS Div. of Hudson Industries Corp.100 Maple Avenue, P.O. Box 506Johnstown, New York12095-0506USA

EMERGENCY TELEPHONE NUMBER: 518-762-4638

Information Telephone Number: 518-762-4638 Facsimile Telephone Number: 518-762-7039 e-Mail: [email protected] http://www.milligan1868.com



EMERGENCY OVERVIEW

Light amber colored granular solid with low odor. Although not a combustible solid, this material will char if involved in a fire, releasing typical carbon oxides. No significant health effects are associated with this material.

2. COMPOSITION(Hazardous Compounds)

NO REPORTABLE QUANTITIES OF HAZARDOUS INGREDIENTS ARE PRESENT.

3. HAZARDS IDENTIFICATION

Potential Health Effects

• Inhalation Health Risks and Symptoms of Exposure: Inhalation of dust may cause irritation of throat and respiratory tract.

• Skin and Eye Contact Health Risks and Symptoms of Exposure: Skin irritation may occur. Possible dermatitis on prolonged or repeated contact. Hot solutions may cause burns.

• Skin Absorption Health Risks and Symptoms of Exposure: No information.• Ingestion Health Risks and Symptoms of Exposure: Not a primary route of entry.

4. FIRST AID MEASURES

Eyes: Flush eyes with water until all foreign matter is completely removed. Get medical attention.

Skin: Wash dry material from skin with soap and water. Wash away solutions under running water, and treat for any burns

Inhalation: Remove affected persons to fresh air and consult physician.

5. FIRE FIGHTING MEASURES

• Extinguishing Media: Water Fog, CO2, Foam, Alcohol Foam, Dry Chemical.• Special Fire Fighting Procedures: Use Smoke Mask• Unusual Fire and Explosion Hazards: None. When exposed to open flame or

extreme heat, this material will char and eventually disintegrate with emission of smoke, leaving only a residual ash. Glue dust dispersed into the air may form explosive mixtures.

• Flash Point: 260-270oC Decomposition/Evolved Gas Flammable.



6. ACCIDENTAL RELEASE MEASURES

Sweep up dry material. Allow solutions to cool completely and gel; then strip from surface. Clean up residue with warm water.

Dispose in accordance with local, state and federal environmental regulations. Small amounts of solution may be washed into sanitary sewers, if local disposal district regulations allow.

7. HANDLING and STORAGE

Store in a cool dry place. Shelf life is indefinite under described storage conditions. Empty packaging carefully to avoid dispersing dust into the air. Sweep up dust accumulations, if they occur. Industrial vacuum cleaner is preferred in order not to re-disperse dust into the air. Avoid contact with water prior to use.

8. EXPOSURE CONTROLS/PERSONAL PROTECTION

• Respiratory Protection: Dust mask while emptying packaging. Smoke mask recommended when this material is exposed to extreme heat(260-270oC)

• Protective Gloves: Rubber or plastic while handling.• Eye Protection: Glasses with side shields.• Other Protective Clothing or Equipment: Eyewash fountain.• Work/Hygienic Practices: Wash after handling and before eating, smoking or

using restrooms. Maintain good housekeeping. • Other precautions: Do not take internally. Avoid contact with skin and eyes, and

inhaling dusts.

9. PHYSICAL and CHEMICAL CHARACTERISTICS

• Boiling Point: N/A (dry material)• Vapor Density: N/A• Evaporation Rate: N/A• Coating V.O.C.: N/A• Material V.O.C.: None• Solubility in Water: In all proportions.• Appearance and Odor: Light amber colored granular solid. Low Odor.• Specific Gravity(water = 1): 1.27

10. STABILITY and REACTIVITY

• Stability: Stable• Conditions to Avoid: No information.• Incompatibility(Materials to Avoid): No information• Hazardous Decomposition or By-products: Oxides of carbon when burned.



• Hazardous Polymerization: None

11. TOXICOLOGICAL INFORMATION

• Chronic Health Hazard and Target Organ Effects: No information.• Carcinogenicity: NTP? No

IARC Monographs? No OSHA Regulated? No

• Medical Conditions Generally Aggravated by Exposure: Skin disorders.

12. ECOLOGICAL INFORMATION

No data is available on the adverse effects of this material on the environment. Neither COD and/or BOD data is available. Based on chemical composition of this material it is assumed that the material can be treated in an acclimatized biological waste treatment plant system in limited quantities.

13. DISPOSAL CONSIDERATIONS

This material is not considered a hazardous waste under Federal Waste Regulations. Pleased be advised, however, state and local requirements for waste disposal may be more restrictive or otherwise different from federal regulations. Consult state and local regulations regarding the proper disposal of this material.

It is recommended that this material waste be landfilled or incinerated after securing Environmental Regulatory Agency and landfill operations approval.

14. TRANSPORT INFORMATION

This material is not a DOT Hazardous Material.

15. OTHER INFORMATION

Label information: NFPA Fire - 0 Health - 0 Reactivity - 0 Specific Hazard - NoneDisclaimer

This information is furnished without warranty, representation, inducement, or license of any kind except that it is accurate to the best of Milligan & Higgins’ knowledge or obtained from sources believed by us to be accurate. M & H does not assume any legal



responsibility for the use or reliance upon the same. Customers are encouraged to conduct their own tests.

MSDS: Linseed Oil (Boiled)

ACC# 71365

Section 1 - Chemical Product and Company IdentificationMSDS Name: Linseed Oil Boiled Catalog Numbers: S80055 Synonyms: Flaxseed Oil Company Identification: Fisher Scientific 1 Reagent Lane Fair Lawn, NJ 07410 For information, call: 201-796-7100 Emergency Number: 201-796-7100 For CHEMTREC assistance, call: 800-424-9300 For International CHEMTREC assistance, call: 703-527-3887

Section 2 - Composition, Information on Ingredients

CAS# Chemical Name Percent EINECS/ELINCS

8001-26-1 Linseed Oil 100.0 232-278-6

Section 3 - Hazards Identification

EMERGENCY OVERVIEWAppearance: yellow to brown liquid.Caution! May cause allergic skin reaction. Aspiration hazard if swallowed. Can enter lungs and cause damage. May cause eye and skin irritation. May cause respiratory and digestive tract irritation. This is expected to be a low hazard for usual industrial handling. Target Organs: None.

Potential Health Effects Eye: Contact may cause transient eye irritation. Skin: Prolonged and/or repeated contact may cause irritation and/or dermatitis. May cause skin sensitization, an allergic reaction, which becomes evident upon re-exposure to this material. Ingestion: Aspiration hazard. Ingestion of large amounts may cause gastrointestinal irritation. Aspiration of material into the lungs may cause chemical pneumonitis, which may be fatal. Inhalation: Causes respiratory tract irritation. Chronic: May cause allergic skin reaction in some individuals.



Section 4 - First Aid Measures

Eyes: Flush eyes with plenty of water for at least 15 minutes, occasionally lifting the upper and lower eyelids. Get medical aid. Skin: Flush skin with plenty of water for at least 15 minutes while removing contaminated clothing and shoes. Get medical aid if irritation develops or persists. Wash clothing before reuse. Ingestion: Do not induce vomiting. If victim is conscious and alert, give 2-4 cupfuls of milk or water. Never give anything by mouth to an unconscious person. Get medical aid. Inhalation: Remove from exposure and move to fresh air immediately. If not breathing, give artificial respiration. If breathing is difficult, give oxygen. Get medical aid if cough or other symptoms appear. Notes to Physician: Treat symptomatically and supportively

Section 5 - Fire Fighting Measures

General Information: As in any fire, wear a self-contained breathing apparatus in pressure-demand, MSHA/NIOSH (approved or equivalent), and full protective gear. During a fire, irritating and highly toxic gases may be generated by thermal decomposition or combustion. Will burn if involved in a fire. Vapors may be heavier than air. They can spread along the ground and collect in low or confined areas. Extinguishing Media: Use dry chemical to fight fire. Use carbon dioxide. Flash Point: 206.1 deg C ( 402.98 deg F) Autoignition Temperature: 343.3 deg C ( 649.94 deg F) Explosion Limits, Lower: Not available. Upper: Not available. NFPA Rating: (estimated) Health: 0; Flammability: 1; Instability: 0

Section 6 - Accidental Release Measures

General Information: Use proper personal protective equipment as indicated in Section 8. Spills/Leaks: Avoid runoff into storm sewers and ditches which lead to waterways. Clean up spills immediately, observing precautions in the Protective Equipment section. Remove all sources of ignition. Absorb spill using an absorbent, non-combustible material such as earth, sand, or vermiculite. Do not use combustible materials such as sawdust. Provide ventilation.

Section 7 - Handling and Storage

Handling: Wash thoroughly after handling. Wash thoroughly after handling. Remove contaminated clothing and wash before reuse. Use with adequate ventilation. Avoid contact with skin and eyes. Keep away from heat, sparks and flame. Do not ingest or inhale. Wash clothing before reuse. Storage: Keep away from heat, sparks, and flame. Store in a cool, dry place. Store in a tightly closed container. Keep from contact with oxidizing materials.



Section 8 - Exposure Controls, Personal Protection

Engineering Controls: Good general ventilation should be sufficient to control airborne levels. Facilities storing or utilizing this material should be equipped with an eyewash facility and a safety shower. Exposure Limits

Chemical Name ACGIH NIOSH OSHA - Final PELs

Linseed Oil none listed none listed none listed

OSHA Vacated PELs: Linseed Oil: No OSHA Vacated PELs are listed for this chemical. Personal Protective Equipment Eyes: Wear appropriate protective eyeglasses or chemical safety goggles as described by OSHA's eye and face protection regulations in 29 CFR 1910.133 or European Standard EN166. Skin: Wear appropriate gloves to prevent skin exposure. Clothing: Wear appropriate protective gloves to prevent skin exposure. Respirators: Follow the OSHA respirator regulations found in 29 CFR 1910.134 or European Standard EN 149. Use a NIOSH/MSHA or European Standard EN 149 approved respirator if exposure limits are exceeded or if irritation or other symptoms are experienced.

Section 9 - Physical and Chemical Properties

Physical State: Liquid Appearance: yellow to brown Odor: peculiar odor pH: Not available. Vapor Pressure: Not available. Vapor Density: >1.0 Evaporation Rate: Not available. Viscosity: Not available. Boiling Point: > 315.6 deg C Freezing/Melting Point:-23.9 deg C Decomposition Temperature: Not available. Solubility: Insoluble in water Specific Gravity/Density:0.925 - 0.935 Molecular Formula: Not applicable. Molecular Weight: Not available

Section 10 - Stability and Reactivity

Chemical Stability: Stable under normal temperatures and pressures. Conditions to Avoid: Incompatible materials, excess heat. Incompatibilities with Other Materials: Nitric acid, chlorine, strong oxidizing agents. Hazardous Decomposition Products: Carbon monoxide, irritating and toxic fumes and



gases, carbon dioxide. Hazardous Polymerization: Has not been reported.

Section 11 - Toxicological Information

RTECS#: CAS# 8001-26-1: OI9690000 LD50/LC50:Not available.

Carcinogenicity:CAS# 8001-26-1: Not listed by ACGIH, IARC, NTP, or CA Prop 65.

Epidemiology: No information found Teratogenicity: No information found Reproductive Effects: No information found Mutagenicity: No information found Neurotoxicity: No information found Other Studies:

Section 12 - Ecological Information

No information available.

Section 13 - Disposal Considerations

Chemical waste generators must determine whether a discarded chemical is classified as a hazardous waste. US EPA guidelines for the classification determination are listed in 40 CFR Parts 261.3. Additionally, waste generators must consult state and local hazardous waste regulations to ensure complete and accurate classification. RCRA P-Series: None listed. RCRA U-Series: None listed.

Section 14 - Transport Information

US DOT Canada TDG

Shipping Name: Not regulated as a hazardous material No information available.

Hazard Class:

UN Number:

Packing Group:

Section 15 - Regulatory Information



US FEDERAL

TSCA CAS# 8001-26-1 is listed on the TSCA inventory. Health & Safety Reporting List None of the chemicals are on the Health & Safety Reporting List. Chemical Test Rules None of the chemicals in this product are under a Chemical Test Rule. Section 12b None of the chemicals are listed under TSCA Section 12b. TSCA Significant New Use Rule None of the chemicals in this material have a SNUR under TSCA. CERCLA Hazardous Substances and corresponding RQs None of the chemicals in this material have an RQ. SARA Section 302 Extremely Hazardous Substances None of the chemicals in this product have a TPQ. Section 313 No chemicals are reportable under Section 313. Clean Air Act: This material does not contain any hazardous air pollutants. This material does not contain any Class 1 Ozone depletors. This material does not contain any Class 2 Ozone depletors. Clean Water Act: None of the chemicals in this product are listed as Hazardous Substances under the CWA. None of the chemicals in this product are listed as Priority Pollutants under the CWA. None of the chemicals in this product are listed as Toxic Pollutants under the CWA. OSHA: None of the chemicals in this product are considered highly hazardous by OSHA. STATE CAS# 8001-26-1 can be found on the following state right to know lists: Pennsylvania.

California Prop 65

California No Significant Risk Level: None of the chemicals in this product are listed.

European/International RegulationsEuropean Labeling in Accordance with EC DirectivesHazard Symbols: Not available. Risk Phrases:

Safety Phrases:

WGK (Water Danger/Protection) CAS# 8001-26-1: 1 Canada - DSL/NDSL CAS# 8001-26-1 is listed on Canada's DSL List. Canada - WHMIS This product has a WHMIS classification of D2B. This product has been classified in accordance with the hazard criteria of the Controlled Products Regulations and the MSDS contains all of the information required by those



regulations. Canadian Ingredient Disclosure List CAS# 8001-26-1 is listed on the Canadian Ingredient Disclosure List.

Section 16 - Additional Information

MSDS Creation Date: 4/15/1999 Revision #5 Date: 10/30/2007

The information above is believed to be accurate and represents the best information currently available to us. However, the Haskell High Power Rocketry Team makes no warranty of merchantability or any other warranty, express or implied, with respect to such information, and the Haskell High Power Rocketry Team assume no liability resulting from its use. Users should make their own investigations to determine the suitability of the information for their particular purposes. In no event shall Fisher be liable for any claims, losses, or damages of any third party or for lost profits or any special, indirect, incidental, consequential or exemplary damages, howsoever arising, even if Fisher has been advised of the possibility of such damages.

MSDS: Beeswax

ACC# 02556

Section 1 - Chemical Product and Company IdentificationMSDS Name: Beeswax Catalog Numbers: W25-500, W27-500 Synonyms: Beeswax White; Beeswax Yellow. Company Identification: Fisher Scientific 1 Reagent Lane Fair Lawn, NJ 07410 For information, call: 201-796-7100 Emergency Number: 201-796-7100 For CHEMTREC assistance, call: 800-424-9300 For International CHEMTREC assistance, call: 703-527-3887

Section 2 - Composition, Information on Ingredients

CAS# Chemical Name Percent EINECS/ELINCS

8012-89-3 White beeswax 100 232-383-7

Section 3 - Hazards Identification

EMERGENCY OVERVIEWAppearance: white to yellow solid.Caution! May cause allergic skin reaction. May cause irritation. This is expected to be a low hazard for usual industrial handling. Target Organs: None.



Potential Health Effects Eye: Dust may cause mechanical irritation. Skin: May cause skin irritation. May cause skin sensitization, an allergic reaction, which becomes evident upon re-exposure to this material. Low hazard for usual industrial handling. Ingestion: Ingestion of large amounts may cause gastrointestinal irritation. Expected to be a low ingestion hazard. Inhalation: May cause respiratory tract irritation. Low hazard for usual industrial handling. Chronic: No information found.

Section 4 - First Aid Measures

Eyes: Get medical aid. Immediately flush eyes with plenty of water for at l east 15 minutes. Skin: Flush skin with plenty of water for at least 15 minutes while removing contaminated clothing and shoes. Get medical aid if irritation develops or persists. Ingestion: If victim is conscious and alert, give 2-4 cupfuls of milk or water. Get medical aid. Inhalation: Remove from exposure and move to fresh air immediately. Get medical aid if cough or other symptoms appear. Notes to Physician: Treat symptomatically and supportively.

Section 5 - Fire Fighting Measures

General Information: As in any fire, wear a self-contained breathing apparatus in pressure-demand, MSHA/NIOSH (approved or equivalent), and full protective gear. Extinguishing Media: For small fires, use water spray, dry chemical, carbon dioxide or chemical foam. Flash Point: > 254 deg C (> 489.20 deg F) Autoignition Temperature: Not applicable. Explosion Limits, Lower: Not available. Upper: Not available. NFPA Rating: (estimated) Health: 1; Flammability: 1; Instability: 0

Section 6 - Accidental Release Measures

General Information: Use proper personal protective equipment as indicated in Section 8. Spills/Leaks: Vacuum or sweep up material and place into a suitable disposal container. Avoid generating dusty conditions.

Section 7 - Handling and Storage

Handling: Use with adequate ventilation. Avoid contact with skin and eyes. Avoid ingestion



and inhalation. Storage: Store in a cool, dry place. Keep from contact with oxidizing materials.

Section 8 - Exposure Controls, Personal Protection

Engineering Controls: Good general ventilation should be sufficient to control airborne levels. Exposure Limits

Chemical Name ACGIH NIOSH OSHA - Final PELs

White beeswax none listed none listed none listed

OSHA Vacated PELs: White beeswax: No OSHA Vacated PELs are listed for this chemical. Personal Protective Equipment Eyes: Wear appropriate protective eyeglasses or chemical safety goggles as described by OSHA's eye and face protection regulations in 29 CFR 1910.133 or European Standard EN166. Skin: Wear appropriate gloves to prevent skin exposure. Clothing: Wear appropriate protective clothing to minimize contact with skin. Respirators: Follow the OSHA respirator regulations found in 29 CFR 1910.134 or European Standard EN 149. Use a NIOSH/MSHA or European Standard EN 149 approved respirator if exposure limits are exceeded or if irritation or other symptoms are experienced.

Section 9 - Physical and Chemical Properties

Physical State: Solid Appearance: white to yellow Odor: none reported pH: Not available. Vapor Pressure: Negligible. Vapor Density: Not available. Evaporation Rate: Negligible. Viscosity: Not available. Boiling Point: Not available. Freezing/Melting Point:62.8 deg C Decomposition Temperature: Not available. Solubility: Insoluble in water. Specific Gravity/Density:0.960-0.964@15°C Molecular Formula:mixute Molecular Weight: Not available.

Section 10 - Stability and Reactivity

Chemical Stability: Stable. Conditions to Avoid: Strong oxidants. Incompatibilities with Other Materials: Strong oxidizers.



Hazardous Decomposition Products: Carbon monoxide, carbon dioxide. Hazardous Polymerization: Has not been reported.

Section 11 - Toxicological Information

RTECS#: CAS# 8012-89-3 unlisted. LD50/LC50:Not available.

Carcinogenicity:CAS# 8012-89-3: Not listed by ACGIH, IARC, NTP, or CA Prop 65.

Epidemiology: No information found Teratogenicity: No information found Reproductive Effects: No information found Mutagenicity: No information found Neurotoxicity: No information found Other Studies:

Section 12 - Ecological Information

No information available.

Section 13 - Disposal Considerations

Chemical waste generators must determine whether a discarded chemical is classified as a hazardous waste. US EPA guidelines for the classification determination are listed in 40 CFR Parts 261.3. Additionally, waste generators must consult state and local hazardous waste regulations to ensure complete and accurate classification. RCRA P-Series: None listed. RCRA U-Series: None listed.

Section 14 - Transport Information

US DOT Canada TDG

Shipping Name: Not regulated as a hazardous material No information available.

Hazard Class:

UN Number:

Packing Group:

Section 15 - Regulatory Information



US FEDERAL

TSCA CAS# 8012-89-3 is listed on the TSCA inventory. Health & Safety Reporting List None of the chemicals are on the Health & Safety Reporting List. Chemical Test Rules None of the chemicals in this product are under a Chemical Test Rule. Section 12b None of the chemicals are listed under TSCA Section 12b. TSCA Significant New Use Rule None of the chemicals in this material have a SNUR under TSCA. CERCLA Hazardous Substances and corresponding RQs None of the chemicals in this material have an RQ. SARA Section 302 Extremely Hazardous Substances None of the chemicals in this product have a TPQ. Section 313 No chemicals are reportable under Section 313. Clean Air Act: This material does not contain any hazardous air pollutants. This material does not contain any Class 1 Ozone depletors. This material does not contain any Class 2 Ozone depletors. Clean Water Act: None of the chemicals in this product are listed as Hazardous Substances under the CWA. None of the chemicals in this product are listed as Priority Pollutants under the CWA. None of the chemicals in this product are listed as Toxic Pollutants under the CWA. OSHA: None of the chemicals in this product are considered highly hazardous by OSHA. STATE CAS# 8012-89-3 is not present on state lists from CA, PA, MN, MA, FL, or NJ.

California Prop 65

California No Significant Risk Level: None of the chemicals in this product are listed.

European/International RegulationsEuropean Labeling in Accordance with EC DirectivesHazard Symbols: Not available. Risk Phrases:

Safety Phrases:

WGK (Water Danger/Protection) CAS# 8012-89-3: Canada - DSL/NDSL CAS# 8012-89-3 is listed on Canada's DSL List. Canada - WHMIS This product has a WHMIS classification of E. This product has been classified in accordance with the hazard criteria of the Controlled Products Regulations and the MSDS contains all of the information required by those



regulations. Canadian Ingredient Disclosure List

Section 16 - Additional Information

MSDS Creation Date: 9/02/1997 Revision #8 Date: 2/11/2008

The information above is believed to be accurate and represents the best information currently available to us. However, the Haskell High Power Rocketry Team makes no warranty of merchantability or any other warranty, express or implied, with respect to such information, and the Haskell High Power Rocketry Team assume no liability resulting from its use. Users should make their own investigations to determine the suitability of the information for their particular purposes. In no event shall Fisher be liable for any claims, losses, or damages of any third party or for lost profits or any special, indirect, incidental, consequential or exemplary damages, howsoever arising, even if Fisher has been advised of the possibility of such damages.

MSDS: Wood Dust NORTH AMERICAN FOREST PRODUCTS, INC.

WOOD AND WOOD PRODUCTS MATERIAL SAFETY DATA SHEET

Page 1 of 5

Effective Date: 1/30/06 Supersedes Date: 2/19/04

____________________________________________________________________________________SECTION 1. CHEMICAL PRODUCT AND COMPANY IDENTIFICATION

PRODUCT NAMES: Wood Dust (Untreated)Wood and Wood Products – (Phenolic Bonded/LFE)

Engineered Lumber (LVL, Glulam, Prefabricated Wood I-Joist, Rim Board, etc.) Imported Hardwood Plywood Lumber Millwork Moulding Oriented Strand Board (OSB) Softwood Plywood Wood Siding

PRODUCT USE: Building Materials – structural, industrial, or decorative

MANUFACTURER/DISTRIBUTOR: North American Forest Products, Inc. PO Drawer AC Edwardsburg, MI49112 (269) 663-8500____________________________________________________________________________________SECTION 2. COMPOSITION INFORMATION ON INGREDIENTS

COMPONENT %WT CAS NO. OSHA PEL ACGIH TLV

**No hazardous ingredients**



See Section 8 for exposure limits for wood dust generated from sawing, sanding or machining the product.

Some hardwood lumber is dipped with an insecticide, pesticide and /or sap stain control. The lumber is then air or kiln dried. No chemical residue is left on the surface of the board.____________________________________________________________________________________SECTION 3. HAZARDS IDENTIFICATION

DESCRIPTION: Solid wood, such as lumber and wood products, such as softwood plywood, not bound with a urea-formaldehyde resin.

EMERGENCY OVERVIEWSawing, sanding or machining wood products can produce wood dust, which can cause an explosion hazard. Wood dust may cause eye, nose and throat irritation.

POTENTIAL HEALTH EFFECTS

INHALATION: Wood dust may cause nasal dryness, irritation, coughing and sinusitis. Repeated exposures (even below 5mg/m3) to certain wood dusts such as Western Red Cedar, can produce allergic responses in some sensitive individuals.

EYE CONTACT: Wood dust can cause mechanical irritation.

SKIN CONTACT: Various species of wood dust may evoke allergic contact dermatitis in sensitized individuals. If an allergy preexists or develops, it may be necessary to remove the sensitized worker from further exposure to wood dust or wood-based products.

INGESTION: Not applicable under normal conditions of use.____________________________________________________________________________________SECTION 4. FIRST AID MEASURES

INHALATION: Remove to fresh air. If persistent irritation, severe coughing or breathing difficulty occurs, get medical attention.

EYE CONTACT: Remove contact lenses. Flush eyes, including under eyelids, with large amounts of water. If irritation persists, get medical attention.

SKIN CONTACT:Wash affected areas with soap and water. If rash or persistent irritation or dermatitis occurs, get medical attention.

INGESTION: Not applicable under normal conditions of use.___________________________________________________________________________________SECTION 5. FIRE EXTINGUISHING MEASURES

FLASH POINT: Not applicable.

EXPLOSIVE LIMITS: Sawing, sanding or machining wood products can produce wood dust as a by-product. Wood dust is a strong to severe explosion hazard if a dust “cloud” contacts an ignition source. 212°F (100°C) has been suggested as the upper temperature limit for continuous exposure for wood without risk of ignition (wood dust may require a still lower temperature). An airborne concentration of 40 grams of dust per cubic meter of air is often used as the lowest explosion limit (LEL) for wood dust.



HAZARDOUS COMBUSTION PRODUCTS: Thermal-oxidative degradation, or burning, of wood can produce irritating and potentially toxic fumes and gases including carbon monoxide, aldehydes and organic acids.

AUTO-IGNITION TEMPERATURE: 400° – 500° Fahrenheit (20°4-206° Centigrade)

FIRE EXTINGUISHING MEDIA: Water. Partially burned dust is especially hazardous if dispersed into the air. Remove burned or wet dust to open area after fire is extinguished. Carbon dioxide or sand.

HFPA RATINGS: Health: 1 Reactivity: 0Hazard Scale: 0 = Minimal, 1 = Slight, 2 = Moderate, 3 = Serious, 4* = Chronic____________________________________________________________________________________SECTION 6. ACCIDENTAL RELEASE MEASURES

Not applicable for product in purchased form. Sweep or vacuum dust for recovery or disposal. Wood dust clean-up and disposal activities should be accomplished in a manner to minimize creation of airborne dust.

____________________________________________________________________________________SECTION 7. HANDLING AND STORAGE

HANDLING: See section 15 “Label Text”.STORAGE: Wood products are combustible and, therefore, should not be subjected to temperatures exceeding the auto-ignition temperature. Water spray may be used to wet down wood dust generated by sawing, sanding or machining to reduce the likelihood of ignition of dispersion of dust into the air.____________________________________________________________________________________SECTION 8. EXPOSURE CONTROLS/PERSONAL PROTECTION

ENGINEERING CONTROLS: Due to the explosive potential of wood dust when suspended in air, precautions should be taken during sanding, sawing or machining of wood products to prevent sparks or other ignition sources in ventilation equipment. Use of totally enclosed motors is recommended. Provide local exhaust as necessary to meet OSHA requirements for wood dust exposure.

RESPIRATORY PROTECTION: The Haskell High Power Rocketry Team is NIOSH/OSHA approved respirator when the permissible exposure limits to wood dust may be exceeded.

EYE PROTECTION: Recommend goggles or safety glasses as conditions indicate when sawing, sanding or machining wood products.

SKIN PROTECTION: Protective equipment such as gloves and outer garments may be needed to reduce skin contact.

Following are wood dust exposure limits, which are in accord with those recommended by OSHA in the 1989 revision of PELs.

WOOD SPECIES CAS NO. OSHA PEL ACGIH TLV

Softwoods NONE 5 mg/m3 TWA 5 mg/m3 TWA



10 mg/m3 STEL 10 mg/m3 STEL

Western Red Cedar NONE 2.5 mg/m3 TWA 1 mg/m3 TWA

Hardwoods except Western NONE 5 mg/m3 TWA 1 mg/m3 TWARed Cedar 10 MG/M3 STEL____________________________________________________________________________________SECTION 9. PHYSICAL AND CHEMICAL PROPERTIES

APPEARANCE AND ODOR: Color and odor are dependent upon wood species.PHYSICALSTATE: Solid. BOILING POINT: Not applicable.PH: Not applicable. MELTING POINT: Not applicable.VAPOR PRESSURE: Not applicable. SOLUBILITY IN WATER: Insoluble.VAPOR DENSITY: Not applicable. SPECIFIC GRAVITY: <1.0

____________________________________________________________________________________SECTION 10. STABILITY AND REACTIVITY

STABILITY: Stable.

CONDITIONS TO AVOID: Wood dust generated from sawing, sanding or machining the product is extremely combustible. Keep in cool, dry place away from ignition sources.

INCOMPATIBILITY (MATERIALS TO AVOID): Oxidizing agents and drying oils.

HAZARDOUS DECOMPOSITION PRODUCTS:

HAZARDOUS POLUMERIZATION: Will not occur.

HAZARDOUS COMBUSTION PRODUCTS: Thermal-oxidative degradation or burning, of wood can produce irritating and potentially toxic fumes and gases including carbon monoxide, aldehydes and organic acids.____________________________________________________________________________________SECTION 11. TOXICOLOGICAL INFORMATION

WOOD DUST: Wood dust generated from sawing, sanding or machining this product may cause nasal dryness, irritation, coughing and sinusitis. Wood dust is not considered a potential cancer hazard by OSHA or the National Toxicology Program (NTP). The International Agency for Research on Cancer (IARC) classifies wood as a carcinogen to humans (Group 1). This classification is based primarily on IARC’s evaluation of increased risk in the occurrence of adenocarcinomas of the nasal cavities and paranasal sinuses associated with exposure to wood dust. IARC did not find sufficient evidence to associate cancers of the oropharnyx, hypopharynx, lung, lymphatic and hematopietic systems, stomach, colon or rectum with exposure to wood dust.____________________________________________________________________________________SECTION 12: ECOLOGICAL INFORMATION

A: General Product InformationThis product is not expected to have ecological effects on the environment.B: Component Analysis – Ecotoxicity – Aquatic ToxicityAquatic values were not found for the individual components listed in Section 2



Environmental Fate:No information available____________________________________________________________________________________SECTION 13. DISPOSAL CONSIDERATIONS

This product is not considered hazardous waste under Federal Hazardous Waste Regulations 40 CFR 261. Please be advised, however, state and local requirements for waste disposal may be different from federal regulations. Incinerate or landfill in accordance with local, state and federal regulations.____________________________________________________________________________________SECTION 14. TRANSPORT INFORMATION

This product is not a DOT hazardous material._________________________________________________________________________________SECTION 15. REGULATORY INFORMATION

OSHA: Wood products are not hazardous under the criteria of the Federal OSHA Hazard Communication Standard 29 CFR 1910.1200. However, wood dust generated by sawing, sanding or machining these products may be hazardous.TSCA: This product complies with TSCA inventory requirements.SARA 313: None.CANADIAN WHMIS: These products are not considered controlled products.____________________________________________________________________________________SECTION 16. OTHER INFORMATION

LABEL TEXT: --------------------------------------------------------------------------Wood ProductsCAUTION!SAWING, SANDING OR MACHINING WOOD PRODUCTS CAN PRODUCE WOOD DUST WHICH CAN CAUSE A FLAMMABLE OR EXPLOSIVE HAZARD.

WOOD DUST MAY CAUSE LUNG, UPPER RESPIRATORY TRACT, EYE AND SKIN IRRITATION. SOME WOOD SPECIES MAY CAUSE DERMATITIS AND/OR RESPIRATORY ALLERGIC EFFECTS. THE INTERNATIONAL AGENCY FOR RESEARCH ON CANCER (IARC) HAS CLASSIFIED WOOD DUST AS A NASAL CARCINOGEN IN HUMANS.

Avoid dust contact with ignition source.Wood dust clean-up and disposal activities should be accomplished in a manner to minimize creation of airborne dust.Avoid breathing dust.Avoid dust contact with eyes and skin.

FIRST AID: If inhaled, remove to fresh air. In case of contact, flush eyes and skin with water. If irritation persists, call a physician.HMIS RATING: Health – 0; Flammability – 1; Reactivity – 0MSDS REVISION SUMMARY: Section 1, product name changes; Section 2, additional information about hardwood lumber; change in title of label text.



IMPORTANT: The information and data herein are believed to be accurate and have been compiled from sources believed to be reliable. It is offered for your consideration, investigation and verification. Buyer assumes all risk of use, storage and handling of the product in compliance with applicable federal, state and local laws and regulations. North American Forest Products, Inc. and its subsidiaries make no warranty of any kind, express or implied, concerning the accuracy or completeness of the information and data herein. The implied warranties of merchantability and fitness for a particular purpose are specifically excluded. North American Forest Products, Inc. and its subsidiaries will not be liable for claims relating to any party’s use of or reliance on information and data contained herein regardless of whether it is claimed that the information and data are inaccurate, incomplete or otherwise misleading.

This Material Safety Data Sheet is being furnished for similar wood products produced by different manufacturers. Consult labels, stamps and markings on the product or packaging for the exact identity of the manufacturer.

Other InformationIMPORTANT: The information and data herein are believed to be accurate and have been compiled from sources believed to be reliable. It is offered for your consideration, investigation and verification. Buyer assumes all risk of use, storage and handling of the product in compliance with applicable federal, state, and local laws and regulations. North American Forest Products, Inc. makes no warranty of any kind, express or implied. Implied warranties of merchantability and fitness for particular purpose are specifically excluded. North American Forest Products, Inc. will not be liable for claims relating to any party’s use of or reliance on information and data contained herein regardless of whether it is claimed that the information and data are inaccurate, incomplete or otherwise misleading.

This Material Safety Data Sheet is being furnished for similar wood products produced by different manufacturers. Consult labels, stamps and markings on the product or packaging for the exact identity of the manufacturer.

Key/Legend:ACGIH American Conference of Governmental Industrial HygienistsC Ceiling LimitCAS Chemical Abstract Services NumberCFR Code of Federal RegulationsDOT Department of TransportationDSL Domestic Substance ListEPA Environmental Protection AgencyHEPA High Efficiency Particulate AirHMIS Hazardous Material Identification SystemIARC International Agency for Research on CancerNA Not Available or Not ApplicableNFPA National Fire Protection AssociationNIOSH National Institute for Occupational Safety and HealthNJTSR New Jersey Trade Secret RegistryNSL Non-Domestic Substance ListNTP National Toxicology ProgramOSHA Occupational Safety and Health AdministrationPPE Personal Protective EquipmentSTEL Short Term Exposure LimitTLV Threshold Limit ValueTSCA Toxic Substance Control ActTWA Time Weighted AverageWHIMS Workplace Hazardous Materials Information System



This is the end ofUF Bonded Wood Products #2

MSDS: Benzomatic Lead-Free Silver Bearing Solder

Material Safety Data Sheet U.S. Department of Labor May be used to comply with Occupational Safety and Health Administration OSHA's Hazard Communication Standard, (Non-Mandatory Form)29CFR 1910.1200.This Standard must be Form Approved consulted for specific requirements. OMB No. 1218-0072

IDENTITY(As Used on Label and List) Bernzomatic Lead-Free Silver Bearing Solder; Tin/Copper/SilverAcidCoreSolderAlloys(TCI-107-1)

Note: Blank spaces are not permitted. If any item is not applicable,ornoinformationisavailable, the space must be marked to indicate that.

SectionIManufacturer's NameBernzOmatic

Emergency Telephone Number800-654-9011

Address(Number,Street,City,State,andZIPCode) TelephoneNumberforInformation800-424-9300

1Bernzomatic Drive DatePreparedJune11, 2011

Medina,NY 14103 SignatureofPreparer (optional)

SectionII - Hazard Ingredients/Identity InformationHazardous Components (Specific ChemicalIdentity; CommonName(s))

USOSHAPEL ACGIHTLV APPROX. VOL.%(*1)

% WT.(*2)

SolderTin(CASNo.7440-31-5)Copper(dust)(CASNo.

7440-50-8) (fume)

2.0mg/m31.0mg/m30.1mg/m3

2.0mg/m31.0mg/m30.2mg/m3

97.0%Balance3.0-4.0%

Silver(CASNO.7440-22-4) 0.01mg/m3 0.1mg/m3 <1.0%

CoreUrea(CASNO.57-13-6) NE 2.55(*4)

2.0-2.5(*3)

2.6%

Notes: *1-Product formulationis tocustomerspecificationandappearsonproduct packagingorpackingslip.



*2-Product weight formulationis tocustomerspecificationandappearsonproduct packagingorpackingslip.

*3-Remainingconstituents, by volume, are inert orconstitute less thanthe declaratory reportingthreshold.



SectionIII - Physical/Chemical CharacteristicsBoilingPoint Informationnotavailable Specific Gravity (H2O= 1): Informationnot available

VaporPressure(mmHg.): Not Volatile MeltingPoint: 227-250(441-482DegreesF)

VaporDensity (AIR =1): Not Volatile EvaporationRate(Butyl Acetate = 1):

Not Applicable

Solubility inWater: InsolubleSolubility inWater: InsolubleSolubility inWater: InsolubleSolubility inWater: InsolubleAppearanceandOdor(At Normal Conditions): Solid–Silvertosilvergray metal.Containscoreofwhite powder.AppearanceandOdor(At Normal Conditions): Solid–Silvertosilvergray metal.Containscoreofwhite powder.AppearanceandOdor(At Normal Conditions): Solid–Silvertosilvergray metal.Containscoreofwhite powder.AppearanceandOdor(At Normal Conditions): Solid–Silvertosilvergray metal.Containscoreofwhite powder.

SectionIV - Fire and Explosion Hazard DataFlashPoint (MethodUsed): Non-Flammable

Flammable Limits: Not Applicable

LEL:Not Applicable

UEL:Not Applicable

ExtinguishingMedia:ExtinguishingMedia:ExtinguishingMedia:ExtinguishingMedia:No specific agents availableNo specific agents availableNo specific agents availableNo specific agents available

Special FireFightingProcedures:Special FireFightingProcedures:Special FireFightingProcedures:Special FireFightingProcedures:Ifinvolvedinfire,usefull protective clothingandNIOSH/MSHAapprovedself- contained breathingapparatus operatedina positive-pressure mode.

Ifinvolvedinfire,usefull protective clothingandNIOSH/MSHAapprovedself- contained breathingapparatus operatedina positive-pressure mode.



UnusualFireandExplosionHazards:UnusualFireandExplosionHazards:UnusualFireandExplosionHazards:UnusualFireandExplosionHazards:Thesolidmetalformisnotafirehazard.However,dustgeneratedfrom processingoperationsmaypresentamoderatefireor explosionhazard.

Thesolidmetalformisnotafirehazard.However,dustgeneratedfrom processingoperationsmaypresentamoderatefireor explosionhazard.



SectionV - Reactivity DataStability: Unstable NO Conditionsto Avoid:

Stable X Not Applicable

Incompatibility(Materials toAvoid)Chlorine,Turpentine,andMagnesium,andAcetyleneGas.Incompatibility(Materials toAvoid)Chlorine,Turpentine,andMagnesium,andAcetyleneGas.Incompatibility(Materials toAvoid)Chlorine,Turpentine,andMagnesium,andAcetyleneGas.Incompatibility(Materials toAvoid)Chlorine,Turpentine,andMagnesium,andAcetyleneGas.HazardousDecompositionorByproductsAttemperaturesabovethemeltingpoint metaloxidefumesmaybeevolved.HazardousDecompositionorByproductsAttemperaturesabovethemeltingpoint metaloxidefumesmaybeevolved.HazardousDecompositionorByproductsAttemperaturesabovethemeltingpoint metaloxidefumesmaybeevolved.HazardousDecompositionorByproductsAttemperaturesabovethemeltingpoint metaloxidefumesmaybeevolved.HazardousPolymerization:

May Occur NO ConditionstoAvoid:

Will Not Occur X Not Applicable


SectionVI - Health Hazard DataRoute(s)ofEntry: Inhalation? Dust/

fume inhalationSkin? NO

Ingestion? Dust ingestion

HealthHazards (Acute andChronic:Note: Exposuretothesolidformofthisproductpresentsfewhealthhazardsinitself. However,normal handlingorprocessingofthis material may result inexposureto productcompoundsand/ordecompositionproducts,whichmaypresentapotential healthhazard.



HealthHazards (Acute andChronic:Note: Exposuretothesolidformofthisproductpresentsfewhealthhazardsinitself. However,normal handlingorprocessingofthis material may result inexposureto productcompoundsand/ordecompositionproducts,whichmaypresentapotential healthhazard.Chronic(prolonged)overexposuretotincanresult inbenignpneumoconiosis (stannous).This formofpneumoconiosis producesprogressivex-ray changesofthe lungsaslongasexposureexists,but thereis nodistinctivefibrosis,noevidenceof disability and nospecial complicatingfactors.

Chronic(prolonged)overexposuretotincanresult inbenignpneumoconiosis (stannous).This formofpneumoconiosis producesprogressivex-ray changesofthe lungsaslongasexposureexists,but thereis nodistinctivefibrosis,noevidenceof disability and nospecial complicatingfactors.

Chronic(prolonged)overexposuretotincanresult inbenignpneumoconiosis (stannous).This formofpneumoconiosis producesprogressivex-ray changesofthe lungsaslongasexposureexists,but thereis nodistinctivefibrosis,noevidenceof disability and nospecial complicatingfactors.

Chronic(prolonged)overexposuretotincanresult inbenignpneumoconiosis (stannous).This formofpneumoconiosis producesprogressivex-ray changesofthe lungsaslongasexposureexists,but thereis nodistinctivefibrosis,noevidenceof disability and nospecial complicatingfactors.Acute (severe short-term)overexposuretotincancauseirritationoftheeyes,skin, mucousmembranesandrespiratory system.AcuteoverexposuretoCoppercancause irritationoftheeyes,nosethroat,andskin,andunderseverefume overexposuremay cause metal fume fever withflu-like symptoms suchas sweet metal taste, dry throat, coughing,feverandchills,tightchest,dyspnea,headache,blurredvision,backpain, nausea,vomiting,fatigue.Symptoms usually disappearwithin24hours.Copper may causeskinandhairdiscoloration.Inhalationofcopperdusts may causechangesinthe gumsandmucousliningsofthemouth,whichis generally attributable tolocalized tissue effect rather than general toxicity.

Acute (severe short-term)overexposuretotincancauseirritationoftheeyes,skin, mucousmembranesandrespiratory system.AcuteoverexposuretoCoppercancause irritationoftheeyes,nosethroat,andskin,andunderseverefume overexposuremay cause metal fume fever withflu-like symptoms suchas sweet metal taste, dry throat, coughing,feverandchills,tightchest,dyspnea,headache,blurredvision,backpain, nausea,vomiting,fatigue.Symptoms usually disappearwithin24hours.Copper may causeskinandhairdiscoloration.Inhalationofcopperdusts may causechangesinthe gumsandmucousliningsofthemouth,whichis generally attributable tolocalized tissue effect rather than general toxicity.



Carcinogenicity: NTP?Not listedasacarcinogen

IARC Monographs?Not listedasacarcinogen

OSHARegulated?Not listedasacarcinogen

SignsandSymptoms ofExposure:SEE HEALTH HAZARDS LISTED ABOVE




Medical ConditionsGenerally Aggravatedby Exposure:Medical ConditionsGenerally Aggravatedby Exposure:Medical ConditionsGenerally Aggravatedby Exposure:Medical ConditionsGenerally Aggravatedby Exposure:Pre-existingconditionsofthelungs; Wilson’sDisease(Genetic Trait)Pre-existingconditionsofthelungs; Wilson’sDisease(Genetic Trait)Pre-existingconditionsofthelungs; Wilson’sDisease(Genetic Trait)Pre-existingconditionsofthelungs; Wilson’sDisease(Genetic Trait)

Emergency andFirst AidProcedures:Emergency andFirst AidProcedures:Emergency andFirst AidProcedures:Emergency andFirst AidProcedures:Skin: Normal hygieneandfirst aidprocedures-washwithsoapandwater.Ifirritation developsorpersists get medical attention.Eyes: Flushwell withrunningwatertoremoveparticulate.Ifirritationpersists obtain medical attention.AcuteInhalation: Removefromexposure.Obtainimmediatemedical attention.If breathing has stopped, initiate Artificial Resuscitation.Ingestion: Givewater; inducevomitingonly inaconsciousnon-convulsingindividual;obtainimmediatemedical attention.

Skin: Normal hygieneandfirst aidprocedures-washwithsoapandwater.Ifirritation developsorpersists get medical attention.Eyes: Flushwell withrunningwatertoremoveparticulate.Ifirritationpersists obtain medical attention.AcuteInhalation: Removefromexposure.Obtainimmediatemedical attention.If breathing has stopped, initiate Artificial Resuscitation.Ingestion: Givewater; inducevomitingonly inaconsciousnon-convulsingindividual;obtainimmediatemedical attention.



SectionVII - Precautions for Safe Handling and Use

Steps toBe TakeninCase Material is Released orSpilled:1. Material indust form-minimizeexposure.Cleanupusingdustlessmethods(i.e.HEPAVacuum).Donot

use compressedair.2. Place in closed labeled containersforrecyclingordisposal.3. Keepout ofwaterways.


NOTE: Cleanup personnel should wear protective clothingandrespiratoryprotection where dust/fume exposure exists.OTHERPROCEDURES:

We recommendthatthepurchaserestablishaspillprevention,controlandcounter measureplan.This planshouldincludeproceduresforproperstorageaswell asclean upofspillsorleaks.Theproceduresshouldconformtosafepracticesandprovidefor



SectionVIII - Control MeasuresRespiratory Protection (Specify Type):

RespiratoryprotectionisrequiredwhereairborneexposuresexceedUS- OSHA/ACGIHpermissibleairconcentrations. Respiratorselectionshall bemadein accordancewiththeUSOSHARespiratory Protection Standard,29CFR1910.134.

Respiratory Protection (Specify Type):RespiratoryprotectionisrequiredwhereairborneexposuresexceedUS- OSHA/ACGIHpermissibleairconcentrations. Respiratorselectionshall bemadein accordancewiththeUSOSHARespiratory Protection Standard,29CFR1910.134.

Ventilation:Ventilation:Goodgeneraldilutionventilation,orventilation, as described in “Industrial Ventilation,AManualofRecommendedPractice”,bytheAmericanConferenceof Governmental Industrial Hygienists,is recommendedtomaintainexposurelevels belowthepermissibleexposurelimits (PEL’s)orThresholdLimit Values(TLV’s) specifiedby U.S.OSHAorotherlocal orstateregulations.

Goodgeneraldilutionventilation,orventilation, as described in “Industrial Ventilation,AManualofRecommendedPractice”,bytheAmericanConferenceof Governmental Industrial Hygienists,is recommendedtomaintainexposurelevels belowthepermissibleexposurelimits (PEL’s)orThresholdLimit Values(TLV’s) specifiedby U.S.OSHAorotherlocal orstateregulations.

ProtectiveGloves:Recommendedforprolongedcontact/heat.

EyeProtection:S a f e t y glassesorgogglesarerecommendedwhere the possibility exists of getting dust particles inthe eyes. Safety glasses or goggles with face shieldarerecommendedaroundmoltenmetal.

OtherProtectiveClothingorEquipment:Safety equipment shouldbewornasappropriate fortheworkenvironment.

OtherProtectiveClothingorEquipment:Safety equipment shouldbewornasappropriate fortheworkenvironment.

Work/Hygienic Practices:Donotpermiteating,drinking,ortheuseofcosmeticsortobaccoproductswhile handlingorprocessingmaterial orinproduct workareas.Practicegoodpersonal hygieneprocedures.Washhandsandfacethoroughlybeforeeating,drinking,applying cosmeticsorusingtobaccoproducts.Fullprotective clothing is requiredtowornby workersexposedtoconcentrationsoflead/dust fume abovethePEL,andshoweringis requiredbeforechangingintostreet clothes.Workclothesandequipment should remainindesignatedproduct useareas.Avoidinhalationandingestionofproduct,and activities which generate dust orfume. Keepmelting/solderingtemperatures as low as possibletominimizethegenerationoffume.

Work/Hygienic Practices:Donotpermiteating,drinking,ortheuseofcosmeticsortobaccoproductswhile handlingorprocessingmaterial orinproduct workareas.Practicegoodpersonal hygieneprocedures.Washhandsandfacethoroughlybeforeeating,drinking,applying cosmeticsorusingtobaccoproducts.Fullprotective clothing is requiredtowornby workersexposedtoconcentrationsoflead/dust fume abovethePEL,andshoweringis requiredbeforechangingintostreet clothes.Workclothesandequipment should remainindesignatedproduct useareas.Avoidinhalationandingestionofproduct,and activities which generate dust orfume. Keepmelting/solderingtemperatures as low as possibletominimizethegenerationoffume.


5SectionIX - Special PrecautionsPrecautionstobetakeninHandlingandStoring:NoneOtherPrecautions:None

SectionX – United States SARA Title III InformationThisproduct/mixturecontainsthefollowingtoxicchemical(s)subjecttothereportingrequirementsofSection313oftitleIIIof theU.S.SuperfundAmendmentsandReauthorizationAct(SARA)of1986and40CFRPart372.Thepercentbyweightofeach toxicchemical andits associatedchemical abstract system(CAS)numberaretofoundinSectionIIofthis Material Safety Data Sheet.

CHEMICALNAME EHS RQ(LBS) EHS TPQ(LBS) SEC.313 313 CATEGORY 311/312 CATEGORY

Copper

*1

NotApplicable

*2

NotApplicable

*3

YES

*4

Copper

*5

H-1

-FOOTNOTES-

*1= Reportable quantity of extremelyhazardoussubstance,Section302.

*2=Thresholdplanningquantity,extremelyhazardoussubstance,Section302.

*3=Toxicchemical list,Section313

*4=Chemical category asrequiredby Section313(40CFR372.42).Subject toannual releasereportingrequirements.

*5=HazardcategoryforSARASection311/312reporting:

Health H-1=Immediate (ACUTE) HealthHazard PhysicalP-3=FireHazard

H-2=Delayed(CHRONIC)HealthHazard P-4=SuddenReleaseofPressureHazard

P-5= Reactive

Hazard

SectionXI – United States CERCLA Section 103 InformationThis product/mixturecontainsthefollowingchemicalssubject tothereleasereportingofSection302.CHEMICAL NAME RQ(LBS)

COPPER 5000(*1)

-FOOTNOTES-

*1=Reportablequantity(RQ)underCERCLASection302.Spillstotheenvironmentexceedingthereportablequantityinany24- hourperiodmustbereportedtotheU.S. NationalResponseCenter(800)424-8802.Noreportingofreleasesofthehazardous substance(s)isrequiredifthediameterofthepiecesofthesolid metal(s) released is equaltoorexceeds100micrometers(0.004 inches).


SectionXII - Transportation InformationProperShippingName: Non-regulatedmaterial

Technical Name: N/A

Hazard Class: N/A

UNNo.: N/A

PackingGroup: N/A

Emergency ResponseGuideNo.: N/A

Other: N/A

SectionXIII – Additional InformationVOCCONTENT:NONE

DISCLAIMER: Judgments as to the suitability of informationhereinorthepurchaser’spurposesarenecessarilythepurchaser’s responsibility. Reasonable care has been taken in the preparationofthismaterial,butthereareNOWARRANTIES,NO REPRESENTATIONS,ANDNORESPONSIBILITYASTOTHEACCURACYORTHESUITABILITYOFTHIS INFORMATIONFORANYPURCHASER’SUSEORFORANYCONSEQUENCETOUSE.

This Material Safety Data Sheet is offeredsolely for yourinformation,considerationandinvestigation.BernzOmatic providesno warranties;eitherexpressorimplied,andassumesnoresponsibilities for the accuracy or completeness of the data contained inthis document.Thedata inthis Material Safety Data Sheet relatesonly tothis product anddoesnot relate touseincombinationwith any othermaterial orinany process.


References

Alabama University. "Nasa University Student Launch Initiative Project Proposal."

Http://rocketgirls.eng.ua.edu. Web. 21 Sept. 2011. <http://rocketgirls.eng.ua.edu/

documents/Rocket_Girls_USLI_Proposal.pdf>.

MIT. "MIT Rocket Team USLI Proposal." Mit.edu. Web. 20 Sept. 2011. <http://

web.mit.edu/rocketteam/www/documents/MIT-USLI-Proposal-2010-2011.pdf>.

Purdue University. "Purdue University 2010-2011 Project Proposal." Http://

purdueusli.org. Web. 20 Sept. 2011. <http://purdueusli.org/proposal.pdf>.


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