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The self-lubricating behavior and evolution mechanisms of the surface microporous friction interface of M50-(Sn-Ag-Cu) material

Xiyao Liu, Zhiwei Lü, Jun’an Zhang, Бо Лю, Yan Cao, Xueming Qian

2020Journal of Materials Research and Technology34 citationsDOIOpen Access PDF

Abstract

The friction interface structure has an important influence on the friction behavior of self-lubricating materials. In this paper, M50 material covered with surface micropores filled with Sn-Ag-Cu (MM-Salloy) was prepared by laser melt deposition. From 25–450 °C, the friction test results show that MM-Salloy exhibits distinguished tribological properties due to the existence of the microporous friction interface. Analysis indicates that Sn-Ag-Cu in surface micropores can dynamically precipitates to the worn surface of MM-Salloy to achieve a lubricating effect, and the increasing of temperature is beneficial to the dynamic precipitation of Sn-Ag-Cu. The whole friction process can be divided into the initial wear stage, fast wear stage and stable wear stage. At stable wear stage, the friction interface is mainly composed of a lubricant-rich surface lubrication layer and a subsurface load-bearing layer, which greatly improves the material's wear resistance. Especially at 350 °C, the surface lubrication layer and subsurface load-bearing layer are most easily formed.

Topics & Concepts

Materials scienceLubricantTribologyLubricationMicroporous materialLayer (electronics)Composite materialBearing (navigation)Deposition (geology)MetallurgyGeographyBiologySedimentCartographyPaleontologyTribology and Lubrication EngineeringAdhesion, Friction, and Surface InteractionsLubricants and Their Additives
The self-lubricating behavior and evolution mechanisms of the surface microporous friction interface of M50-(Sn-Ag-Cu) material | Litcius