J4 ›› 2016, Vol. 13 ›› Issue (3): 406-415.doi: 10.1016/S1672-6529(16)60313-X

• 论文 • 上一篇    下一篇

Bionic Coupling of Hardness Gradient to Surface Texture for Improved Anti-wear Properties

Long Zheng, Jianjun Wu, Si Zhang, Shishuai Sun, Zhihui Zhang, Song Liang, Zhenning Liu, Luquan Ren   

  1. Key Laboratory of Bionic Engineering (Ministry of Education), College of Biological and Agricultural Engineering, Jilin University, Changchun 130022, China
  • 收稿日期:2015-11-15 修回日期:2016-05-15 出版日期:2016-07-10 发布日期:2016-07-10
  • 通讯作者: Song Liang; Zhenning Liu E-mail:songliang@jlu.edu.cn; liu_zhenning@jlu.edu.cn
  • 作者简介:Long Zheng, Jianjun Wu, Si Zhang, Shishuai Sun, Zhihui Zhang, Song Liang, Zhenning Liu, Luquan Ren

Bionic Coupling of Hardness Gradient to Surface Texture for Improved Anti-wear Properties

Long Zheng, Jianjun Wu, Si Zhang, Shishuai Sun, Zhihui Zhang, Song Liang, Zhenning Liu, Luquan Ren   

  1. Key Laboratory of Bionic Engineering (Ministry of Education), College of Biological and Agricultural Engineering, Jilin University, Changchun 130022, China  
  • Received:2015-11-15 Revised:2016-05-15 Online:2016-07-10 Published:2016-07-10
  • Contact: Song Liang; Zhenning Liu E-mail:songliang@jlu.edu.cn; liu_zhenning@jlu.edu.cn
  • About author:Long Zheng, Jianjun Wu, Si Zhang, Shishuai Sun, Zhihui Zhang, Song Liang, Zhenning Liu, Luquan Ren

摘要:

This work investigates the potential of combining hardness gradient with surface texture (an example of bionic coupling) to improve anti-wear properties. The bionic coupling of hardness gradient and Hexagonal Texture (HT) was achieved by laser heat treatment on steel specimens with pre-engraved hexagonal surface texture. The successful establishment of decreasing hardness from surface to internal bulk was verified by hardness measurements along the depth of cross-sectioned specimens and corre-lated with the observations from metallurgical microscopy. The tribological performance of bionic coupling specimens (HT-L) was examined under dry contact condition, together with respective control specimens of individual bionic features, e.g. HT-H (of similar surface hardness generated by conventional heat treatment but without hardness gradient) and SS-L (of smooth surface treated by the same laser processing as for HT-L). It is found that HT-L not only exhibits lower friction coefficient and less friction fluctuation than HT-H and SS-L, but also demonstrates a >50% reduction of wear loss compared to HT-H and SS-L (0.0343 g for HT-L vs. 0.0723 g for HT-H, P<0.001; 0.0343 g for HT-L vs. 0.0817 g for SS-L, P<0.001). Corroboratively, observations with scanning electron microscopy revealed a relatively smooth surface for worn HT-L specimen, contrasting with the rugged and grooved surfaces of worn HT-H and SS-L specimens. These results indicate that the bionic coupling of hardness gradient to hexagonal texture can indeed improve anti-wear properties, affording a new strategy to wear and friction manage-ment.

 

关键词: anti-wear, bionic coupling, hardness gradient, surface texture, hexagonal texture

Abstract:

This work investigates the potential of combining hardness gradient with surface texture (an example of bionic coupling) to improve anti-wear properties. The bionic coupling of hardness gradient and Hexagonal Texture (HT) was achieved by laser heat treatment on steel specimens with pre-engraved hexagonal surface texture. The successful establishment of decreasing hardness from surface to internal bulk was verified by hardness measurements along the depth of cross-sectioned specimens and corre-lated with the observations from metallurgical microscopy. The tribological performance of bionic coupling specimens (HT-L) was examined under dry contact condition, together with respective control specimens of individual bionic features, e.g. HT-H (of similar surface hardness generated by conventional heat treatment but without hardness gradient) and SS-L (of smooth surface treated by the same laser processing as for HT-L). It is found that HT-L not only exhibits lower friction coefficient and less friction fluctuation than HT-H and SS-L, but also demonstrates a >50% reduction of wear loss compared to HT-H and SS-L (0.0343 g for HT-L vs. 0.0723 g for HT-H, P<0.001; 0.0343 g for HT-L vs. 0.0817 g for SS-L, P<0.001). Corroboratively, observations with scanning electron microscopy revealed a relatively smooth surface for worn HT-L specimen, contrasting with the rugged and grooved surfaces of worn HT-H and SS-L specimens. These results indicate that the bionic coupling of hardness gradient to hexagonal texture can indeed improve anti-wear properties, affording a new strategy to wear and friction manage-ment.

 

Key words: anti-wear, bionic coupling, hardness gradient, surface texture, hexagonal texture