仿生表面形态对抗疲劳性能影响的对辊试验

吉林大学学报(工学版) ›› 2010, Vol. 40 ›› Issue (增刊): 274-0277.

仿生表面形态对抗疲劳性能影响的对辊试验

吕尤,韩志武,董立春,张俊秋,马荣峰,牛士超

吉林大学工程仿生教育部重点实验室,长春 130022

收稿日期:2010-01-28 出版日期:2010-09-01 发布日期:2010-09-01
通讯作者: 韩志武（1969-）,男,教授,博士生导师.研究方向:工程仿生.E-mail:zwhan@jlu.edu.cn E-mail:zwhan@jlu.edu.cn
作者简介:吕尤（1983-）,男,博士研究生.研究方向:仿生齿轮性能.E-mail:llvvyou@163.com
基金资助:
国家自然科学基金项目（50635030）;教育部留学归国人员科研启动基金项目;吉林大学杰出青年基金项目（200905016）

Experiment of antifatigue function of roller surface with grid micromorphology

LV You,HAN Zhi-wu,DONG Li-chun,ZHANG Jun-qiu,MA Rong-feng,NIU Shi-chao

Key Laboratory of Bionic Engineering,Ministry of Education,Jilin University, Changchun 130022,China

Received:2010-01-28 Online:2010-09-01 Published:2010-09-01

摘要/Abstract

摘要：

利用试验优化设计安排试验方案，采用激光图形雕刻加工的方式实现辊子接触面网格型仿生表面微观形态，研究了网格型仿生表面微观形态和光滑表面辊子的抗疲劳性能。试验结果表明，具有网格型仿生表面微观形态的辊子接触面疲劳点蚀率普遍降低；而未处理过的光滑表面辊子疲劳点蚀率明显较大，甚至出现辊子接触面片状剥落的现象，说明光滑表面的辊子在疲劳试验过程中的抗疲劳强度较低，网格型仿生表面微观形态辊子较光滑表面辊子的抗疲劳强度提高近1.5倍。

关键词: 网格型仿生表面微观形态, 激光图形雕刻加工, 疲劳点蚀率, 抗疲劳强度

Abstract:

Based on the experimental optimal design for the experimental scheme, the laser graphic texturing was applied to process the grid bionic surface micromorphology on the roller surface. The experiment of antifatigue capability of the roller was performed. The results show that the pitting ratio of all the roller specimens with the grid micromorphology had been decreased, while that of the ordinary roller had been increased. The contact fatigue spalling appeared on the ordinary roller surface. The antifatigue capability of the ordinary roller is much lower than that of the roller with micromorphology. The antifatigue capability of the roller had been improved to 150% by the grid bionic surface micromorphology.

Key words: grid bionic surface micro-morphology, laser graphic texturing, pitting ratio, anti-fatigue capability

中图分类号:

TH164

吕尤, 韩志武, 董立春, 张俊秋, 马荣峰, 牛士超. 仿生表面形态对抗疲劳性能影响的对辊试验[J]. 吉林大学学报(工学版), 2010, 40(增刊): 274-0277.

LV You, HAN Zhi-Wu, DONG Li-Chun, ZHANG Jun-Qiu, MA Rong-Feng, NIU Shi-Chao. Experiment of antifatigue function of roller surface with grid micromorphology[J]. 吉林大学学报(工学版), 2010, 40(增刊): 274-0277.

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