Influence of heat affected zone on tribological properties of CuSn6 bronze laser dimple textured surface

Dimple texturing on CuSn6 tin bronze specimen surfaces were fabricated with laser surface texturing (LST) and drilled surface texturing (DST) methods, respectively. Friction coefficients and wear of textured and non-textured specimens were measured and compared. Experimental results show that more s...

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Bibliographic Details
Published in:Tribology international 2017-01, Vol.105, p.158-165
Main Authors: Shang, Quanbo, Yu, Aibing, Wu, Jianzhao, Shi, Chenchun, Niu, Weiyang
Format: Article
Language:English
Subjects:
Heat affected zone
Laser
Texture
Tin bronze
Wear
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Summary:Dimple texturing on CuSn6 tin bronze specimen surfaces were fabricated with laser surface texturing (LST) and drilled surface texturing (DST) methods, respectively. Friction coefficients and wear of textured and non-textured specimens were measured and compared. Experimental results show that more severe wear of laser textured specimens is observed than that of non-textured specimens. Shrinkages, porosities, cracks and inverse segregation in the heat affected zone will result in material softening of laser dimple edges. Material softening can cause the destruction of oxide film easily, and shorten the duration of mild wear regime of LST specimens. However, the work hardening of drilled dimple edges on bronze surface can increase the duration of mild wear regime and improve wear resistance of DST specimens. •The heat affected zone of laser dimple may decrease the wear resistance of CuSn6 bronze textured surface.•Microstructure defects in heat affected zone of CuSn6 tin bronze will result in the softening of laser dimple edges.•The oxide film on bronze specimen surface affects the duration of mild wear regime.•The hardening of drilled dimple edges on tin bronze surface can increase the duration of mild wear regime.
ISSN:0301-679X
1879-2464
DOI:10.1016/j.triboint.2016.10.008