Ambiguous Transition from Fretting to Sliding of Biomedical Alloys

机译：生物医学合金从微动到滑动的模糊过渡

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An intensive amplitude arrangement for reciprocal tribocontact of biomedical alloys, Ag-20.0Pd-14.5Cu-12.0Au, Au-5.0Pt-2.0Pd-9.2Ag-15.0Cu and Ti-29Nb-13Ta-4.6Zr was conducted in order to check the details of friction and wear alterations around the transition from fretting to sliding. It is shown that the friction force exhibits stagnation for the Ag alloy and decrease for the Au alloy and the Ti alloy in certain domain of oscillating amplitude. Beyond the domain the friction force increases with the amplitude, and below the lower threshold and above the upper threshold triboevent is complete fretting and sliding respectively. Observation of friction-force waveform and SEM topography found, a hybrid mechanism of fretting and sliding is dominant in the amplitude domain, and the strong adhesion between the self-mated alloys is responsible to this exhibition.

机译：为了检查生物医学合金的相互摩擦接触，进行了密集的振幅布置，以检查Ag-20.0Pd-14.5Cu-12.0Au，Au-5.0Pt-2.0Pd-9.2Ag-15.0Cu和Ti-29Nb-13Ta-4.6Zr从微动到滑动的过渡过程中摩擦和磨损变化的细节。结果表明，在一定幅度的振幅范围内，摩擦力对银合金呈现停滞状态，对金合金和钛合金呈现减小的趋势。超过该域，摩擦力随振幅增加，并且在下阈值以下和上阈值以上，摩擦事件分别完成了微动和滑动。观察到的摩擦力波形和SEM形貌，微动和滑动的混合机制在振幅域中占主导地位，而自交配合金之间的强粘附力是本次展览的原因。

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来源
《Pacific Rim International Conference on Advanced Materials and Processing(PRICM 5) pt.3》|2005年|2343-2347|共5页
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H. Fukui; W. Yang; S. Tsuruta; K. Kaikawa; A. Sugimura; S. Takeda; M. Niinomi;
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中图分类工程材料一般性问题;
关键词
fretting; sliding; friction; wear; tribocontact; biomedical alloy;

机译：微动滑动摩擦;穿;摩擦接触生物医学合金;

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Ambiguous Transition from Fretting to Sliding of Biomedical Alloys

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