Abstract

Friction stir processing has evolved as a novel method to fabricate surface metal matrix composites. The feasibility to make B[4]C particulate reinforced copper surface matrix composite is detailed in this paper. The B[4]C powders were compacted into a groove of width 0.5 mm and depth 5 mm on a 9.5 mm thick copper plate. A tool made of high carbon high chromium steel; oil hardened to 63 HRC, having cylindrical profile was used in this study. A single pass friction stir processing was carried out using a tool rotational speed of 1500 rpm, processing speed of 40 mm/min and axial force of 10 kN. A defect free interface between the matrix and the composite layer was achieved. The optical and scanning electron micrographs revealed a homogeneous distribution of B[4]C particles which were well bonded with the matrix. The hardness of the friction stir processed zone increased by 26% higher to that of the matrix material.

Details

Title
Fabrication and Characterization of CU/B4C Surface Dispersion Strengthened Composite using Friction Stir Processing
Author
Sathiskumar, R; Murugan, N; Dinaharan, I; Vijay, SJ
Pages
83-87
Publication year
2014
Publication date
Mar 2014
Publisher
Polish Academy of Sciences
ISSN
17333490
e-ISSN
23001909
Source type
Scholarly Journal
Language of publication
English
DOI
https://doi.org/10.2478/amm-2014-0014
ProQuest document ID
1517827337
Copyright
Copyright De Gruyter Open Sp. z o.o. Mar 2014