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    Recent developments in low-smoke zero-halogen flame retardant polyolefins

    New search for: Cogen, Jeffrey M.
    New search for: Wasserman, Scott H.
    New search for: Brown, Geoffrey D.
    New search for: Bunker, Shana P.
    New search for: Gowell, Robert W.
    New search for: Lin, Thomas S.
    New search for: Whaley, Paul D.

    LS0H (low-smoke zero-halogen) polyolefin compounds typically require high levels of additives, which significantly impact mechanical properties and processability. This poses unique material development challenges. This paper presents recent developments in LSOH polyolefin technology, including novel nanoclay flame retardants, coupling technology, metal hydroxide structure-property relationships, new functional fillers for wet electrical applications, rheology of filled polyolefin systems, and fire testing methodology. These developments provide new tools for creation of novel LSOH materials.

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    Recent developments in low-smoke zero-halogen flame retardant polyolefins

    New search for: Cogen, Jeffrey M.
    New search for: Wasserman, Scott H.
    New search for: Brown, Geoffrey D.
    New search for: Bunker, Shana P.
    New search for: Gowell, Robert W.
    New search for: Lin, Thomas S.
    New search for: Whaley, Paul D.

    LS0H (low-smoke zero-halogen) polyolefin compounds typically require high levels of additives, which significantly impact mechanical properties and processability. This poses unique material development challenges. This paper presents recent developments in LSOH polyolefin technology, including novel nanoclay flame retardants, coupling technology, metal hydroxide structure-property relationships, new functional fillers for wet electrical applications, rheology of filled polyolefin systems, and fire testing methodology. These developments provide new tools for creation of novel LSOH materials.

    Access

    Access via TIB
    Check availability in my library

    Recent developments in low-smoke zero-halogen flame retardant polyolefins

    New search for: Cogen, Jeffrey M.
    New search for: Wasserman, Scott H.
    New search for: Brown, Geoffrey D.
    New search for: Bunker, Shana P.
    New search for: Gowell, Robert W.
    New search for: Lin, Thomas S.
    New search for: Whaley, Paul D.

    LS0H (low-smoke zero-halogen) polyolefin compounds typically require high levels of additives, which significantly impact mechanical properties and processability. This poses unique material development challenges. This paper presents recent developments in LSOH polyolefin technology, including novel nanoclay flame retardants, coupling technology, metal hydroxide structure-property relationships, new functional fillers for wet electrical applications, rheology of filled polyolefin systems, and fire testing methodology. These developments provide new tools for creation of novel LSOH materials.

    Access

    Access via TIB
    Check availability in my library

    Access

    Access via TIB
    Check availability in my library

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    Document information
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    Document information
    Title:

    Recent developments in low-smoke zero-halogen flame retardant polyolefins

    Contributors:

    Cogen, Jeffrey M. (author) / Wasserman, Scott H. (author) / Brown, Geoffrey D. (author) / Bunker, Shana P. (author) / Gowell, Robert W. (author) / Lin, Thomas S. (author) / Whaley, Paul D. (author)

    Published in:

    From Reserves to Retailers - The Changes Confronting the Polyolefins Business Worldwide, Polyolefins, International Conference on Polyolefins, 2006 ; 879-893

    Publication date:

    2006

    Size:

    15 Seiten, 12 Bilder, 6 Tabellen, 26 Quellen

    Type of media:

    Conference paper

    Type of material:

    Print

    Language:

    English

    Keywords:

    nanokristalliner Werkstoff , Ton (Mineral) , Magnesiumhydroxid , Natriumsilicat , Copolymer-Ethylen-Vinylacetat , Montmorillonit , Viskosität , Zugfestigkeit , Bruchdehnung , Vertikalflammtest

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