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Enhanced interfacial adhesion between PPO and glass beads in composites by surface modification of glass beads via in situ polymerization and copolymerization

机译：通过原位聚合和共聚对玻璃珠进行表面改性，增强了复合材料中PPO与玻璃珠之间的界面粘合力

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Glass beads were modified with vinyl triethoxyl silane (VTES) followed by in situ copolymerization with styrene (St) and by direct modification with St via in situ polymerization. It was seen that the presence of glass beads did not inhibit the polymerization of St, and FT-IR spectra confirmed that the polystyrene (PS) molecules were grafted on the surfaces of glass beads. When the modified glass beads were filled in a poly(phenylene oxide) (PPO) matrix, the PS segments on the surfaces of glass beads clearly improved compatibility and enhanced interfacial adhesion between the PPO matrix and glass beads, which was responsible for the slightly increased glass transition temperature of the PPO component. Surface modifications, especially by in situ copolymerization of VTES and St, increased significantly notch impact strengths and marginal stiffness and tensile strengths of PPO/glass bead composites.

机译：用乙烯基三乙氧基硅烷（VTES）改性玻璃珠，然后与苯乙烯（St）原位共聚，并通过St原位聚合直接用St改性。可以看出，玻璃珠的存在没有抑制St的聚合，并且FT-IR光谱证实聚苯乙烯（PS）分子接枝在玻璃珠的表面上。当将改性玻璃微珠填充到聚苯醚（PPO）基质中时，玻璃微珠表面上的PS片段明显改善了相容性并增强了PPO基质与玻璃微珠之间的界面粘附力，这导致微微增加PPO组分的玻璃化转变温度。表面改性，特别是通过VTES和St的原位共聚，显着提高了PPO /玻璃微珠复合材料的缺口冲击强度以及边缘刚度和拉伸强度。

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Xie XL; Tang CY; Zhou XP; Li RKY; Yu ZZ; Zhang QX; Mai YW;
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年度 2004
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原文格式 PDF
正文语种 eng
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入库时间 2022-08-20 20:56:14

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1. Effect of glass bead/vinyl silane/styrene in-situ copolymerization on mechanical properties of PPO-matrix composites [J] . C. Y. Tang, X. L. Xie, X. P. Zhou, Journal of Materials Science Letters . 2002,第10期

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Enhanced interfacial adhesion between PPO and glass beads in composites by surface modification of glass beads via in situ polymerization and copolymerization

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