综述了空间苛刻服役环境及其对空间摩擦学材料性能影响的研究,深入分析了空间环境对空间摩擦材料、空间耐磨材料和空间减摩材料摩擦磨损机理的影响.空间摩擦材料主要应用于空间对接机构及空间机械臂中,应具有稳定的摩擦力矩与优良的抗黏着磨损性能.空间耐磨材料主要应用于空间轴承、齿轮和密封件等部件中,如Fe-Al金属间化合物在高温下抗蠕变性急剧下降,常通过添加金属元素(Ce,Cr,Mn,Mo,Nb,W等)及固体润滑剂提高材料抗蠕变性能;Ti及其合金常通过表面改性改善黏着性;与基体结合性良好的耐磨涂层可以较大程度的改善材料的耐磨性.空间减摩材料主要指润滑剂与自润滑材料,如软金属Pb、高分子材料PI和PTFE等,以及某些金属的氧化物,氟化物和硫化物等,能较好地降低材料表面的摩擦因数.随着航天科技的发展,亟须开发新型高性能空间摩擦学材料,建立摩擦学材料数据库,以应对国际航天技术发展的挑战.
The harsh space environment and its influence on the performance of space tribological materials are reviewed.The effects of the harsh space environment on the friction and wear mechanisms of friction materials,anti-wear materials and anti-friction materials are analyzed respectively.Space friction materials which are often used in space docking system and space manipulator should have stable friction torque and excellent adhesive wear resistance.Space anti-wear materials are mainly used in the space bearings,gears and seal parts.For example,The metal elements (e.g.Ce,Cr,Mn,Mo,Nb,W) and solid lubricants are often added for Fe-Al intermetallics to restrain creep at high temperature;the wear resistances of Ti and its alloys are often improved by surface modification;anti-wear coating which has a proper associativity with the matrix can improve the wear resistance of the materials.Space anti-friction materials mainly refer to lubricants and self-lubricating materials which can reduce friction coefficient of the materials,such as soft metals,polymer materials,some oxides,fluorides and sulfides.With the development of aerospace science and technology,it is highly demanded that the novel tribological materials with high performance should be developed for space applications,and the database of tribological materials should be built,in order to meet the international challenge of development of space technology.
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