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    Flame resistant and self-extinguishing poly(arylene ether) matrix composites

    New search for: Guiles, M.A.
    New search for: Lennhoff, J.D.

    Triton Systems, Inc. has developed a new series of flame resistant high performance polymer matrix composites (PMCs) that have improved performance over state of the art PMCs. These new materials are based on PAEPO (Poly Aryl Ether Phosphine Oxide) matrices which gain their flame resistance and low smoke release through both char former and chemical inhibition mechanisms that are chemically incorporated (not blended) into the polymer structure for enhanced thermal stability. Through testing at the Naval Surface Warfare Center and NASA Marshall Space Flight Center, Triton has shown these new composites to be more flame resistant and emit lower levels of smoke than other available PMCs. Triton's PMCs have shown long times to ignition and very low smoke and heat release during 75 and 100 kW/m2 cone calorimeter testing of 1/4 inch thick samples, and have passed a NASA Upward Flame Propagation Test at 100 percent oxygen at ambient pressure.

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    Flame resistant and self-extinguishing poly(arylene ether) matrix composites

    New search for: Guiles, M.A.
    New search for: Lennhoff, J.D.

    Triton Systems, Inc. has developed a new series of flame resistant high performance polymer matrix composites (PMCs) that have improved performance over state of the art PMCs. These new materials are based on PAEPO (Poly Aryl Ether Phosphine Oxide) matrices which gain their flame resistance and low smoke release through both char former and chemical inhibition mechanisms that are chemically incorporated (not blended) into the polymer structure for enhanced thermal stability. Through testing at the Naval Surface Warfare Center and NASA Marshall Space Flight Center, Triton has shown these new composites to be more flame resistant and emit lower levels of smoke than other available PMCs. Triton's PMCs have shown long times to ignition and very low smoke and heat release during 75 and 100 kW/m2 cone calorimeter testing of 1/4 inch thick samples, and have passed a NASA Upward Flame Propagation Test at 100 percent oxygen at ambient pressure.

    Access

    Access via TIB
    Check availability in my library

    Flame resistant and self-extinguishing poly(arylene ether) matrix composites

    New search for: Guiles, M.A.
    New search for: Lennhoff, J.D.

    Triton Systems, Inc. has developed a new series of flame resistant high performance polymer matrix composites (PMCs) that have improved performance over state of the art PMCs. These new materials are based on PAEPO (Poly Aryl Ether Phosphine Oxide) matrices which gain their flame resistance and low smoke release through both char former and chemical inhibition mechanisms that are chemically incorporated (not blended) into the polymer structure for enhanced thermal stability. Through testing at the Naval Surface Warfare Center and NASA Marshall Space Flight Center, Triton has shown these new composites to be more flame resistant and emit lower levels of smoke than other available PMCs. Triton's PMCs have shown long times to ignition and very low smoke and heat release during 75 and 100 kW/m2 cone calorimeter testing of 1/4 inch thick samples, and have passed a NASA Upward Flame Propagation Test at 100 percent oxygen at ambient pressure.

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    Title:

    Flame resistant and self-extinguishing poly(arylene ether) matrix composites

    Contributors:

    Guiles, M.A. (author) / Lennhoff, J.D. (author)

    Published in:

    International SAMPE Symposium and Exhibition, 43 ; 1609-1617

    International SAMPE Symposium and Exhibition (Proceedings) ; 43

    Publication date:

    1998

    Size:

    9 Seiten, 8 Quellen

    Type of media:

    Conference paper

    Type of material:

    Print

    Language:

    English

    Keywords:

    Polyether , Rauch , Kalorimetrie , Flammverzögerer , Selbstlöschung , Rauchentwicklung , Wärmeentwicklung , Polymermatrix-Verbundwerkstoff

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