The demonstration and characterization of a novel planar-contact encapsulated microball bearing using a radial in-flow microturbine are presented. Stable operation of the air-driven silicon microturbine is shown for over 1 000 000 revolutions at speeds, pressure drops, and flow rates of up to 10 000 r/min, 0.45 lbf/in2, and 3.5 slm, respectively. Incorporation of a gas thrust plenum using a novel packaging scheme has enabled comprehensive spin-down friction characterization of the encapsulated microball bearing. An empirical power-law model for dynamic friction has been developed for speeds of 250-5000 r/min and loads of 10-50 mN, corresponding to torques of 0.0625-2.5 muNldrm and friction torque constants of 2.25-5.25 x 10[superscript -4] muNldrm/ r/min. The onset and effect of wear and wear debris have been studied, showing negligible wear in the load bearing surfaces for the operating conditions considered.
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机译:介绍了使用径向流入微型涡轮机的新型平面接触密封微型球轴承的演示和特性。气动硅微型涡轮机的稳定运行表明,转速,压降和流量分别高达10000 r / min,0.45 lbf / in2和3.5 slm时,可稳定运行超过1000000转。使用新颖的包装方案并入了气体推力气室,从而能够对封装的微球轴承进行全面的旋转摩擦特性表征。已经建立了动态摩擦的经验幂律模型,其转速为250-5000 r / min,负载为10-50 mN,对应于0.0625-2.5 muNldrm的扭矩和2.25-5.25 x 10 [-]的摩擦扭矩常数。 4] muNldrm / r / min。已经研究了磨损碎片的起因和影响,表明在所考虑的工作条件下,承重表面的磨损可忽略不计。
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