Effect of 6 Wt.% Particle (B4C + SiC) Reinforcement on Mechanical Properties of AA6061 Aluminum Hybrid MMC
Author:
Publisher
Springer Science and Business Media LLC
Subject
Electronic, Optical and Magnetic Materials
Link
https://link.springer.com/content/pdf/10.1007/s12633-021-01210-4.pdf
Reference46 articles.
1. Balasubramanian I, Maheswaran R (2015) Effect of inclusion of SiC particulates on the mechanical resistance behaviour of stir-cast AA6063/SiC composites. Mater Design 65:511–520
2. Prakash VA, Jaisingh SJ (2018) Mechanical strength behaviour of silane treated E-glass fibre/Al 6061 & SS-304 wire mesh reinforced epoxy resin hybrid composite. Silicon 10(5):2279–2286
3. Akhil KT, Arul S, Sellamuthu R (2014) The effect of heat treatment and aging process on microstructure and mechanical properties of A356 aluminium alloy sections in casting. Procedia Eng 97:676–1682
4. Mohan K, Suresh JA, Ramu P, Jayaganthan R (2016) Microstructure and mechanical behavior of Al 7075-T6 subjected to shallow cryogenic treatment. J Mater Eng Performance 25(6):2185–2194
5. Surappa MK, Prasad SV, Rohatgi PK (1982) Wear and abrasion of cast Al-alumina particle composites. Wear 77(3):295–302
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