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随着互穿聚合物网络(IPN)的发展[1],出现了无机/有机杂化IPN[2],调整两组分或多组分互穿程度控制材料的结构、形态与性能,可使材料具有较宽的适用范围[3].此类材料具有高模量、高韧性,易成型加工,同时由于某些功能材料的掺杂,使其能应用于光学、...
With the development of interpenetrating polymer networks (IPN) [1], inorganic / organic hybrid IPNs [2] have emerged, and the structure, morphology and properties of the two or more components interpenetrating materials can be controlled Material has a wide range of applications [3]. Such materials with high modulus, high toughness, easy forming, at the same time due to the doping of certain functional materials, so that it can be applied to optical, ...