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不少研究者都认为聚合物的转移磨损受摩擦副表面能的影响。为了考察材料表面及表面性质对聚合物粘着转移的影响,作者运用不同的对偶材料(45号碳钢、铝及铜)並通过不同的表面处理方法,明显提高了其表面能,用未经表面处理的聚四氟乙烯(PTFE)和高密度聚乙烯(HDPE)与这些处理的和未经处理的金属材料对摩时发现,聚合物的比磨损大致相同,且不受对偶材料表面能的影响。但当对PTFE和HDPE进行表面化学处理后,再与那些处理的金属材料对摩时,其磨损率很低,在稳定磨损阶段,仅为未处理者的1/200左右,並且也与对偶材料的表面能无关。经过表面化学处理后,PTFE的摩擦系数稍有升高,而HDPE的则有所降低。文中还对PTFE的磨损机理进行了讨论。
Many researchers believe that the transfer of polymer wear by friction surface energy. In order to investigate the effects of surface and surface properties on the adhesion and migration of polymers, the authors used different dual materials (45 carbon steel, aluminum and copper) and different surface treatments to significantly increase their surface energy. Treated Polytetrafluoroethylene (PTFE) and High Density Polyethylene (HDPE) were found to exhibit approximately the same wear as the treated and untreated metallic materials, and were not affected by the surface energy of the dual material . However, PTFE and HDPE surface chemical treatment, and then with those dealing with the metal material friction, the wear rate is very low, stable wear stage, only about 1/200 of the untreated, and also with the dual material The surface energy can be irrelevant. After the surface chemical treatment, the friction coefficient of PTFE slightly increased, while the HDPE decreased. The paper also discusses the wear mechanism of PTFE.