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国外C/C复合材料飞机刹车盘的摩擦表面特性和摩擦磨损机理 被引量:4
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作者 陈青华 肖志超 +2 位作者 邓红兵 苏君明 彭志刚 《材料科学与工程学报》 CAS CSCD 北大核心 2008年第2期288-293,共6页
在MM-1000型摩擦试验机上,对英、法、美三国四大炭盘制造商的五种炭盘小样进行了摩擦磨损性能测试,对摩擦表面进行了宏观和扫描电子显微镜(SEM)微观形貌分析,对各试样的摩擦磨损过程和机理进行了一定的探讨。结果表明:石墨化度决定了膜... 在MM-1000型摩擦试验机上,对英、法、美三国四大炭盘制造商的五种炭盘小样进行了摩擦磨损性能测试,对摩擦表面进行了宏观和扫描电子显微镜(SEM)微观形貌分析,对各试样的摩擦磨损过程和机理进行了一定的探讨。结果表明:石墨化度决定了膜的完整程度,且成正比关系;坯体结构对摩擦膜有一定的影响;纯树脂炭基体的试样表面膜厚度较小,完整致密性与热解炭基体的试样差别较大,磨损较大;C/C复合材料的机械磨损以粘着、犁沟、磨粒磨损为主,膜越完整的材料呈现出以粘着磨损为主,对于低石墨化度的和纯树脂炭基体的C/C复合材料表现出犁沟、磨粒磨损为主,粘着磨损为辅。 展开更多
关键词 C/C复合材料 摩擦面形貌 摩擦 摩擦磨损机理
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Friction properties of groove texture on Cr12MoV surface 被引量:6
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作者 王敬 周杰 +1 位作者 朱姗姗 张建生 《Journal of Central South University》 SCIE EI CAS CSCD 2017年第2期303-310,共8页
To analyze the influence of surface texture on friction properties of Crl2MoV', ordinary grinder and spinning technology were adopted to obtain the grooved surface morphology of samples, and then the impact of spindl... To analyze the influence of surface texture on friction properties of Crl2MoV', ordinary grinder and spinning technology were adopted to obtain the grooved surface morphology of samples, and then the impact of spindle speed and feed in z-direction on surface morphology in the process of spinning was studied. In addition, the corresponding friction coefficient of sample was obtained through friction and wear tests. The results show that the peak clipping and the valley filling were conducted on the grinding surface, which could improve the surface roughness effectively and make the grinding trench-type wear scar more uniform. Both the area ratio of groove and groove spacing increased initially and then decreased with the increase of the spindle speed or the feed in z-direction. As a kind of micro-process, the groove could influence the friction coefficient of sample surface, whose distribution was beneficial to the reduction of friction coefficient. Compared with the surface obtained through ordinary grinding, grooved surface morphology through spinning technology was more conductive to reduce the friction coefficient, which could be reduced by 25%. When the friction coefficient of sample was reduced to the minimum, the texture of groove corresponded had an optimal area ratio and an optimal groove spacing, 37.5% and 27.5 μm, respectively. 展开更多
关键词 groove texture SPINNING friction coefficient area ratio groove spacing
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Dynamic characteristics of gear system under different micro-topographies with the same roughness on tooth surface 被引量:5
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作者 YIN Lei DENG Chun-long +2 位作者 YU Wen-nian SHAO Yi-min WANG Li-ming 《Journal of Central South University》 SCIE EI CAS CSCD 2020年第8期2311-2323,共13页
The topography of gear meshing interfaces is one of the key factors affecting the dynamic characteristics of the gear transmission system.In order to obtain the contact characteristics of meshing gear pair with differ... The topography of gear meshing interfaces is one of the key factors affecting the dynamic characteristics of the gear transmission system.In order to obtain the contact characteristics of meshing gear pair with different surface micro-topographies,an interface feature model and a tribo-dynamics coupling model for the gear system are proposed in this paper.The effects of the gear tooth surface micro-topography on the oil film distribution,contact damping and friction are considered.The time-varying meshing stiffness and the static transmission error are included in the abovementioned models.An exemplary gear pair is analyzed using the proposed models to investigate the influence of the surface micro-topography on the dynamic characteristics of gear system under different micro-topographies and input torque conditions.Simulation results show that the effects of gear tooth micro-topography on the gear dynamic responses(including the friction and the vicious damping at the gear meshing interface and the vibration in the direction of offline of action)are highly dependent on the regularity of tooth surface.The vibration and noise can be significantly controlled by manufacturing a regular gear tooth profiles instead of random profiles. 展开更多
关键词 gear tribo-dynamics coupling model TOPOGRAPHY ROUGHNESS
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