Novel Phosphorus‐Containing Poly(ether sulfone)s and Their Blends with an Epoxy Resin: Thermal Decomposition and Fire Retardancy期刊界 All Journals 搜尽天下杂志传播学术成果专业期刊搜索期刊信息化学术搜索

Novel Phosphorus‐Containing Poly(ether sulfone)s and Their Blends with an Epoxy Resin: Thermal Decomposition and Fire Retardancy

Authors:	Ulrike Braun,Uta Knoll,Bernhard Schartel,Thorsten Hoffmann,Doris Pospiech,Johannes Artner,Michael Ciesielski,Manfred D ring,Raul Perez‐Graterol,Jan K. W. Sandler,Volker Altst dt

Affiliation:	Ulrike Braun,Uta Knoll,Bernhard Schartel,Thorsten Hoffmann,Doris Pospiech,Johannes Artner,Michael Ciesielski,Manfred Döring,Raul Perez‐Graterol,Jan K. W. Sandler,Volker Altstädt

Abstract:	Summary: The decomposition of novel phosphorus‐containing poly(oxyphenylene‐sulfonyl‐phenylene‐oxy‐diphenyl phenylene phosphine oxide) (PSU_I), 2,5‐dihydroxy‐1‐biphenylene‐phosphine oxide based polysulfone (PSU_II), poly(sulfonyl‐diphenylphenylene phosphonate) (PSU_P) and bisphenol A‐based polysulfone (PSU) is studied. The influence of the chemical structure, charring and phosphorus release is discussed based on the mass loss, kinetics and products. The pyrolysis and fire behaviour of blends with epoxy resin (EP) are studied. For EP‐PSU_II, phosphorus initiates water elimination and changes the decomposition pathway of EP. The fire behaviour of EP‐PSU shows some improvements, whereas the heat release rate is crucially reduced for EP‐PSU_II due to simultaneous char formation and flame inhibition. Decomposition model of PSU_II.

Keywords:	epoxy flame retardance high performance polymers polysulfones thermogravimetric analysis (TGA)

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