Litcius/Paper detail

Modelling and Optimisation of Wear Parameters for Spark Plasma Sintered Al– SiC–Kaoline Hybrid Composite

V. S. S. Venkatesh, Ashish B. Deoghare

2021Advances in Materials and Processing Technologies23 citationsDOI

Abstract

The effect of naturally available low-cost kaoline clay reinforcement on the mechanical and tribological characteristics of Al–10%SiC–X%kaoline (X = 0, 2, 4, 6, 8) hybrid metal matrix composite fabricated using Plasma Spark Sintering technique was investigated. Hardness and Compression test was conducted to obtain the mechanical properties. Results reveal that maximum hardness of 159 VHN and compression strength of 279 MPa was obtained for Al–10%SiC–4%Kailine composite samples. Incorporation of kaoline reinforcement more than 4% leads to the formation of agglomerations, which was identified by SEM analysis and the corresponding Al2Cu peak for this agglomeration was conformed through XRD patterns. Wear test was conducted for Al–10%SiC–4%kaoline composite and the effect of process parameters such as applied load, sliding distance and sliding velocity were optimised for the responses like wear rate and C.O.F. ANOVA analysis showed that the most significant process parameters for wear rate are applied load and sliding velocity with their % of the contribution was 54.99 % and 31.93 %, respectively. For C.O.F., Load was influencing most fallowed by sliding velocity and their respective % contribution was 62.43 % and 33.40 %. The optimised values obtained based on this study was 0.00192 mm3/m and 0.28 respectively for wear rate and C.O.F.

Topics & Concepts

Materials scienceSpark plasma sinteringComposite numberTribologyComposite materialMetal matrix compositeSinteringIndentation hardnessMetallurgyMicrostructureAluminum Alloys Composites PropertiesAdvanced ceramic materials synthesisAdvanced materials and composites