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氢氧化镁阻燃硅橡胶的制备及性能 被引量:22

Preparation and properties of flame retardant silicone rubber with Mg(OH)_2.
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摘要 分别采用未处理氢氧化镁、有机硅处理氢氧化镁、硬脂酸处理氢氧化镁为阻燃剂,制备阻燃硅橡胶,研究了氢氧化镁种类对硅橡胶阻燃性能、力学性能、电性能的影响;通过扫描电镜观察阻燃硅橡胶的拉伸断面形貌,并通过热重分析对硅橡胶的阻燃机理进行初步探讨。结果表明,采用经有机硅处理的氢氧化镁为阻燃剂时,硅橡胶的阻燃效果优于采用其它两种氢氧化镁为阻燃剂的硅橡胶;有机硅处理氢氧化镁对硅橡胶的力学性能和电性能损害较小。添加60份有机硅改性氢氧化镁时,硅橡胶的极限氧指数达到36%,拉伸强度为6.4MPa,撕裂强度为32.9kN/m,邵尔A硬度为51度,体积电阻率和表面电阻率分别为5.8×1015Ω.cm和4.1×1015Ω,介电常数和介质损耗因数分别为3.43和2.34×10-2。有机硅处理氢氧化镁在硅橡胶中分散较均匀,界面结合紧密,孔洞较少。 The flame retardant silicone rubber was prepared with the addition of silicone-modified Mg(OH)_2,stearic acid-modified Mg(OH)_2 and unmodified Mg(OH)_2,respectively. The effects of three kinds of Mg(OH)_2 on flame retardant properties,mechanical and electrical properties of silicone rubber were investigated,and the flame retardant mechanism of silicone rubber with Mg(OH)_2 was studied by TG analysis. The results showed that the silicone rubber with silicone-modified Mg(OH)_2 had a better flame retardant properties than those with stearic acid-modified Mg(OH)_2 and unmodified Mg(OH)_2,and the limited oxygen index (LOI) was 36%,and the tensile strength was 6.4 MPa,the tear strength was 32.9 KN/m when the loading of silicone-modified Mg(OH)_2 was 60 phr. Silicone-modified Mg(OH)_2 showed less damage to the mechanical properties and the electrical properties of the silicone rubber than the other two kinds of Mg(OH)_2. SEM photographs showed that the uniform dispersion of silicone-modified Mg(OH)_2 in the silicone rubber and better compact adhesion between silicon-modified Mg(OH)_2. Silicone rubber and little cavities founded on the tensile fracture surface of silicone rubber. Silicone-modified Mg(OH)_2 was dispersed uniform compact interface,and less perforation.
出处 《有机硅材料》 CAS 2006年第4期171-175,共5页 Silicone Material
基金 华南理工大学自然科学基金青年基金资助项目(B09-E5050320)
关键词 硅橡胶 氢氧化镁 阻燃 有机硅 硬脂酸 silicone rubber,magnesium hydroxide,flame retardency,mechanical properties,electrical property
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  • 1韩淑玉 乐贵强.阻燃橡胶胶料及制品的开发和应用.特种橡胶制品,1985,6(4):18-22.
  • 2[1]Ou Yuxiang, Chen Yu, Wang Youmei. Flame - retarded Polymeric Materials, 2001:7 ~ 8
  • 3[2]Hornsby P R. Fire and Material, 1994, 18:269
  • 4Matsushita, Takao, Takuman, et al. Curable silicone rubber composition and manufacturing method thereof [ P ]. U S, US 5 866 653. 1999.
  • 5Richard M S,Latham N Y.Process for the preparation of flame retardant silicone rubber and composition thereof. US 2 891 033.1959.
  • 6刘华飞.表面改性对阻燃剂氢氧化镁发展前景的影响[A]..表面活性剂技术经济文集[C].成都,2003.370.
  • 7Lagarde R,Lahaye J. The flame retardant mechanism of the silicone rubber containing platinum [J]. Eur. Polym. J.,1977,13(10) :769.
  • 8Stina W,Kenneth D,Sigbirtt K. Development and comparison of test methods for evaluating formation of biofilms on silicones[J]. Polym. Degrad. Stab. ,2002,78(2) :257-262.
  • 9Zhao S G, Feng S Y. Vinyl-containing silicone resin as the crosslinking agent of heat-curable silicone rubber[J]. Journal of Applied Polymer Science,2002,83 (14) :3 123-3 127.
  • 10李斌,孙才英,张秀成.用锥形量热仪研究聚乙烯膨胀阻燃体系的燃烧性[J].高等学校化学学报,1999,20(1):146-149. 被引量:21

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