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Dry wear behavior of A356-SiCp functionally graded composite in unidirectional and reciprocating contacts

P. S. John, Rajeev Vamadevan Rajam, Rajkumar Mattacaud Ramachandralal, Krishnakumar Komalangan

2021Industrial Lubrication and Tribology10 citationsDOI

Abstract

Purpose The purpose of this study is to distinguish the difference in tribological behavior of functionally graded composites in two sliding modes, namely, unidirectional and reciprocating. Design/methodology/approach A356-(10 Wt.%)SiCp functionally graded composite material (FGM) was prepared by vertical centrifugal casting and then a comparison was made between the tribological characteristics using pin-on-disk and pin-on-reciprocating plate configurations under identical operating conditions (sliding distance (s): 350 m; load (W): 30 = W = 120 N, in steps of 30 N; and velocity (v): 0.2 = v = 1.2 m/s, in steps of 0.2 m/s). Two types of test pins were considered, namely, a test pin taken from the outer zone of the FGM with maximum particle concentration and a test pin taken from the inner zone of the FGM in a matrix-rich region. Findings The study revealed that, for the test pin taken from the outer zone of the FGM in the low-velocity range (0.2–0.4 m/s), the reciprocating wear of the friction pair was dominant, while unidirectional wear was dominant in the velocity range of 0.6–0.8 m/s for the entire load range investigated. However, when the velocity was increased from 1.0 to 1.2 m/s, conflicting nature of dominancy in the wear characteristics of the friction pair was observed, depending on the loading condition. In addition, the inner zone FGM pin underwent seizure in the reciprocating mode, whereas this phenomenon was not seen in the unidirectional mode. Originality/value Differences in wear and friction characteristics of FGM friction pairs in two different sliding modes were investigated over a wide range of operating parameters.

Topics & Concepts

Reciprocating motionMaterials scienceTribologyComposite numberComposite materialCentrifugal casting (silversmithing)Particle (ecology)Bearing (navigation)MoldGeologyOceanographyGeographyCartographyTribology and Wear AnalysisAluminum Alloys Composites PropertiesBrake Systems and Friction Analysis
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