聚酰亚胺复合材料摩擦学研究进展
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摘要
作为聚合物润滑轴承材料,聚酰亚胺复合材料的摩擦磨损性能在很大程度上决定了运动机构的可靠性和使用寿命。主要综述聚酰亚胺复合材料在干摩擦、润滑条件以及空间环境中的摩擦学性能研究现状,提出面临的关键问题,展望聚酰亚胺复合材料的发展方向。
As polymer lubricated bearing materials,the tribological properties of polyimide composites determine the reliability and service life of the motion components to a large extent. Therefore,this paper mainly reviews the research of the tribological performance of polyimide composites under dry,lubricated and space conditions,significant problems it facing were put forward,and the outlook of polyimide composites was discussed.
As polymer lubricated bearing materials,the tribological properties of polyimide composites determine the reliability and service life of the motion components to a large extent. Therefore,this paper mainly reviews the research of the tribological performance of polyimide composites under dry,lubricated and space conditions,significant problems it facing were put forward,and the outlook of polyimide composites was discussed.
引文
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[2]Guo L,Qi H,Zhang G,et al. Distinct tribological mechanisms of various oxide nanoparticles added in PEEK composite reinforced with carbon fibers[J]. Composites Part A Applied Science&Manufacturing. 2017,97:19-30.
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[5]李冰,律微波,赵宁,等.聚酰亚胺基固体润滑材料研究进展[J].化工新型材料,2017(6):14-16.
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[7]Qin S,Chen C,Cui M,et al. Facile preparation of polyimide/graphene nanocomposites via an in situ polymerization approach[J]. RSC Advances,2017(5):3003-3011.
[8]Xin Y,Li T,Xu F,et al. Multidimensional structure and enhancement performance of modified graphene/carbon nanotube assemblies in tribological properties of polyimide nanocomposites[J]. RSC Advances,2017(34):20742-20753.
[9]Zhu L,You L,Shi Z,et al. An investigation on the graphitic carbon nitride reinforced polyimide composite and evaluation of its tribological properties[J]. Journal of Applied Polymer Science,2017(41):45403.
[10]李珍莲,张新瑞,王廷梅,等.复合填充改性聚酰亚胺润滑材料的摩擦学性能[J].润滑与密封,2016(10):82-85.
[11]董凤霞,侯国梁,刘亮,等.稀土改性对碳纤维增强聚酰亚胺复合材料在不同温度下摩擦学性能的影响[J].摩擦学学报,2017(2):148-154.
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[15]Chen B,Yang J,Wang J,et al. Fiber hybrid polyimide-based composites reinforced with carbon fiber and poly-p-phenylene benzobisthiazole fiber:Tribological behaviors under sea water lubrication[J]. Polymer Composites,2016(6):1650-1658.
[16]Chen B,Wang J,Liu N,et al. Synergism of several carbon series additions on the microstructures and tribological behaviors of polyimide-based composites under sea water lubrication[J]. Materials&Design,2014,63:325-332.
[17]周杰,吴进军,杨友胜,等.海水润滑下几种聚酰亚胺材料高副摩擦学性能[J].润滑与密封,2017(12):100-103.
[18]王廷梅.空间用多孔聚合物轴承保持架材料研究进展[J].机械工程学报,2018(9):17-26.
[19]Xian G,Zhang Z,Friedrich K. Tribological properties of micro-and nanoparticles-filled poly(etherimide)composites[J]. Journal of Applied Polymer Science,2006(3):1678-1686.
[20]Duan C,Yang Z,Zhang D,et al. Effect of isomerism on mechanical and tribological properties of thermoplastic polyimide films[J]. Tribology International,2018,121:373-380.
[21] Zhang D,Wang T,Wang Q,et al. Selectively enhanced oil retention of porous polyimide bearing materials by direct chemical modification[J]. Journal of Applied Polymer Science,2017(29):45106.
[22]吕美.典型聚合物及其复合材料在空间辐照环境下的摩擦学性能研究[D].北京:中国科学院大学,2016.
[23]裴先强,孙晓军,王齐华.原子氧辐照下GF/PI和Nano-Ti O2/GF/PI复合材料的摩擦学性能研究[J].航天器环境工程,2010(2):19-22.
[24]黄占凯.碳纳米管填充聚合物多孔含油材料摩擦学性能研究[D].哈尔滨:哈尔滨工业大学,2015.
[25]Tesa-Serrate M,Marshall B,Smoll E,et al. Ionic liquid-vacuum interfaces probed by reactive atom scattering:influence of alkyl chain length and anion volume[J]. The Journal of Physical Chemistry C,2015(10):5491-5505.
[26]李志刚.几种纳米粒子作为通用锂基脂添加剂的试验研究[D].大连:大连交通大学,2007.
[27]闫普选,朱鹏,黄丽坚,等.聚酰亚胺多孔含油材料的摩擦磨损性能研究[J].摩擦学学报,2008(3):272-276.
[28]Lv M,Wang C,Wang Q,et al. Highly stable tribological performance and hydrophobicity of porous polyimide material filled with lubricants in simulated space environment. RSC Advances[J]. 2015(66):53543-53549.
[29] Jia Z,Yan Y,Wang W. Preparation and tribological properties of PI oil-bearing material with controllable pore size[J]. 2017(2):88-94.
[30]Wang C,Wang Q,Wang T. Simple method for preparation of porous polyimide film with an ordered surface based on in situ self-assembly of polyamic acid and silica microspheres[J]. Langmuir,2010(23):18357-18361.
[31]邱优香,王齐华,王超.结构可控多孔聚酰亚胺含油薄膜的制备及性能研究[J].摩擦学学报,2012(5):480-485.
[32]周宁宁,卿涛,张韶华,等.碳纳米管填充多孔聚合物材料含油性能研究[J].润滑与密封,2017(2):120-123.
[2]Guo L,Qi H,Zhang G,et al. Distinct tribological mechanisms of various oxide nanoparticles added in PEEK composite reinforced with carbon fibers[J]. Composites Part A Applied Science&Manufacturing. 2017,97:19-30.
[3] Kizilkaya C,Yusuf M,Kahraman M,et al. Synthesis and characterization of polyimide/hexagonal boron nitride composite[J]. Journal of Applied Polymer Science,2012(1):706-712.
[4]梁敏,陈伟.工程塑料聚酰亚胺的性能及应用[J].化工时刊,2015(10):23-24.
[5]李冰,律微波,赵宁,等.聚酰亚胺基固体润滑材料研究进展[J].化工新型材料,2017(6):14-16.
[6]Zhang L,Qi H,Li G,et al. Impact of reinforcing fillers'properties on transfer film structure and tribological performance of POM-based materials[J]. Tribology International,2017,109:58-68.
[7]Qin S,Chen C,Cui M,et al. Facile preparation of polyimide/graphene nanocomposites via an in situ polymerization approach[J]. RSC Advances,2017(5):3003-3011.
[8]Xin Y,Li T,Xu F,et al. Multidimensional structure and enhancement performance of modified graphene/carbon nanotube assemblies in tribological properties of polyimide nanocomposites[J]. RSC Advances,2017(34):20742-20753.
[9]Zhu L,You L,Shi Z,et al. An investigation on the graphitic carbon nitride reinforced polyimide composite and evaluation of its tribological properties[J]. Journal of Applied Polymer Science,2017(41):45403.
[10]李珍莲,张新瑞,王廷梅,等.复合填充改性聚酰亚胺润滑材料的摩擦学性能[J].润滑与密封,2016(10):82-85.
[11]董凤霞,侯国梁,刘亮,等.稀土改性对碳纤维增强聚酰亚胺复合材料在不同温度下摩擦学性能的影响[J].摩擦学学报,2017(2):148-154.
[12]秦红玲,周新聪,闫志敏,等.水润滑尾轴承振鸣音研究进展[J].噪声与振动控制,2013(1):123-126.
[13]Wu X,Wang J,Xiao K,et al. Numerical simulation study on water-lubricated rubber bearing[J]. Journal of Advanced Manufacturing Systems,2008(01):111-114.
[14]张志远,聂松林,张振华,等.碳纤维增强聚酰亚胺在海水润滑下的摩擦学性能[J].润滑与密封,2016(11):78-82.
[15]Chen B,Yang J,Wang J,et al. Fiber hybrid polyimide-based composites reinforced with carbon fiber and poly-p-phenylene benzobisthiazole fiber:Tribological behaviors under sea water lubrication[J]. Polymer Composites,2016(6):1650-1658.
[16]Chen B,Wang J,Liu N,et al. Synergism of several carbon series additions on the microstructures and tribological behaviors of polyimide-based composites under sea water lubrication[J]. Materials&Design,2014,63:325-332.
[17]周杰,吴进军,杨友胜,等.海水润滑下几种聚酰亚胺材料高副摩擦学性能[J].润滑与密封,2017(12):100-103.
[18]王廷梅.空间用多孔聚合物轴承保持架材料研究进展[J].机械工程学报,2018(9):17-26.
[19]Xian G,Zhang Z,Friedrich K. Tribological properties of micro-and nanoparticles-filled poly(etherimide)composites[J]. Journal of Applied Polymer Science,2006(3):1678-1686.
[20]Duan C,Yang Z,Zhang D,et al. Effect of isomerism on mechanical and tribological properties of thermoplastic polyimide films[J]. Tribology International,2018,121:373-380.
[21] Zhang D,Wang T,Wang Q,et al. Selectively enhanced oil retention of porous polyimide bearing materials by direct chemical modification[J]. Journal of Applied Polymer Science,2017(29):45106.
[22]吕美.典型聚合物及其复合材料在空间辐照环境下的摩擦学性能研究[D].北京:中国科学院大学,2016.
[23]裴先强,孙晓军,王齐华.原子氧辐照下GF/PI和Nano-Ti O2/GF/PI复合材料的摩擦学性能研究[J].航天器环境工程,2010(2):19-22.
[24]黄占凯.碳纳米管填充聚合物多孔含油材料摩擦学性能研究[D].哈尔滨:哈尔滨工业大学,2015.
[25]Tesa-Serrate M,Marshall B,Smoll E,et al. Ionic liquid-vacuum interfaces probed by reactive atom scattering:influence of alkyl chain length and anion volume[J]. The Journal of Physical Chemistry C,2015(10):5491-5505.
[26]李志刚.几种纳米粒子作为通用锂基脂添加剂的试验研究[D].大连:大连交通大学,2007.
[27]闫普选,朱鹏,黄丽坚,等.聚酰亚胺多孔含油材料的摩擦磨损性能研究[J].摩擦学学报,2008(3):272-276.
[28]Lv M,Wang C,Wang Q,et al. Highly stable tribological performance and hydrophobicity of porous polyimide material filled with lubricants in simulated space environment. RSC Advances[J]. 2015(66):53543-53549.
[29] Jia Z,Yan Y,Wang W. Preparation and tribological properties of PI oil-bearing material with controllable pore size[J]. 2017(2):88-94.
[30]Wang C,Wang Q,Wang T. Simple method for preparation of porous polyimide film with an ordered surface based on in situ self-assembly of polyamic acid and silica microspheres[J]. Langmuir,2010(23):18357-18361.
[31]邱优香,王齐华,王超.结构可控多孔聚酰亚胺含油薄膜的制备及性能研究[J].摩擦学学报,2012(5):480-485.
[32]周宁宁,卿涛,张韶华,等.碳纳米管填充多孔聚合物材料含油性能研究[J].润滑与密封,2017(2):120-123.