Wear resistance of piston sleeve made of layered material structure: MMC A356R, anti-abrasion layer and FGM interface
Autor
Hernik, Szymon
Opublikowane w
Acta Mechanica et Automatica
Numeracja
vol. 10, no. 3
Strony
207-212
Data wydania
2016
Wydawca
Bialystok University of Technology Publishing Office
Język
angielski
ISSN
2300-5319
DOI
10.1515/ama-2016-0031
Słowa kluczowe
piston sleeve, wear, thermo-elasticity, Archard's law, metal matrix composite MMC, functionally graded material FGM
Abstrakt
The aim of this paper is the numerical analysis of the one of main part of car engine – piston sleeve. The first example is for piston sleeve made of metal matrix composite (MMC) A356R. The second improved material structure is layered. Both of them are comparison to the classical structure of piston sleeve made of Cr-Ni stainless steel. The layered material structure contains the anti-abrasion layer at the inner surface of piston sleeve, where the contact and friction is highest, FGM (functionally graded material) interface and the layer of virgin material on the outer surface made of A356R. The complex thermo-elastic model with Archard's condition as a wear law is proposed. The piston sleeve is modelling as a thin walled cylindrical axisymmetric shell. The coupled between the formulation of thermo-elasticity of cylindrical axisymmetric shell and the Archard’s law with functionally changes of local hardness is proposed.
