\r王志英^{1, 2}，宁素素^{1, 2}，韩承志^{1, 2}，杨振生^{1, 2}，李春利\r^{1, 2}\r
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AuthorsHTML:\r王志英^{1, 2}，宁素素^{1, 2}，韩承志^{1, 2}，杨振生^{1, 2}，李春利\r^{1, 2}\r
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AuthorsListE:\rWang Zhiying^{1, 2}，Ning Susu ^{1, 2}，Han Chengzhi ^{1, 2}，Yang Zhensheng^{1, 2}，Li Chunli\r^{1, 2}\r
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AuthorsHTMLE:\rWang Zhiying^{1, 2}，Ning Susu ^{1, 2}，Han Chengzhi ^{1, 2}，Yang Zhensheng^{1, 2}，Li Chunli\r^{1, 2}\r
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Unit:\r1. 河北工业大学化工学院，天津 300130；
2. 化工节能过程集成与资源利用国家地方联合工程实验室，天津 300130\r
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Unit_EngLish:\r1. School of Chemical Engineering，Hebei University of Technology，Tianjin 300130，China；
2. National-Local Joint Engineering Laboratory for Energy Conservation of Chemical Process Integration and Resources Utilization，Tianjin 300130，China\r
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Abstract_Chinese:\r用碱液和硅烷偶联剂KH550 水解液先后对聚对苯二甲酸乙二醇酯(PET)无纺布进行表面改性处理，以提高聚偏氟乙烯(PVDF)膜与PET 支撑层间的界面性能．研究了改性处理条件对PVDF/PET 膜的界面黏合性和力学性能的影响，并探讨了界面黏合增强机制．结果表明：水解液中KH550 含量较少(≤3%)时，处理时间延长，PET 与PVDF 膜间的剥离强度增大；水解液中KH550 含量较多(＞3%)时，处理时间延长，PET 与PVDF 膜间的剥离强度先增大后减小；PVDF/PET 膜的拉伸强度随水解液中KH550 用量的增加或处理时间的延长先增大后略减小．研究发现，适当改性处理后，PET 纤维的表面粗糙度增大，含氧官能团增多，PET 纤维表面的润湿性提高，增强了PVDF膜与PET支撑层间的机械锁合和分子结合力，从而使PVDF/PET膜的界面黏合性显著增强．\r
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Abstract_English:\rIn this study, polyethylene terephthalate(PET) nonwovens were surface-modified with an alkali solution and 3-aminoprophyltriethoxysilane (KH550) coupling agent to improve the interfacial property between the polyvinylidene fluoride (PVDF) membrane and PET reinforcement. The effects of the modification conditions on the interfacial adhesion and mechanical properties of the composites were investigated. Further, the interface enhancement mechanism was studied. The results show that at low KH550 concentrations (≤3%), the peel strength between the
PVDF and PET increased as treatment time increased; however, at high KH550 concentrations (＞3%), the peel strength first increased and then decreased as the treatment time increased. The tensile strength of the PVDF/PET membrane increased and then decreased slightly with increasing KH550 concentration or treatment time. The surface roughness and amount of oxygenous functional groups increased after the modification treatment, which can improve the wettability of the PET surface. The mechanical interlocking and intermolecular force between the PVDF membrane and PET reinforcement were enhanced, and this enhances the interfacial adhesion property of the PVDF/PET membrane.\r
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Keyword_Chinese:PET；PVDF；膜；表面改性；界面性能；剥离强度\r

Keywords_English:PET；PVDF；membrane；surface modification；interfacial property；peel strength\r


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