Article ID | Journal | Published Year | Pages | File Type |
---|---|---|---|---|
1574748 | Materials Science and Engineering: A | 2014 | 8 Pages |
Abstract
HPT processing leads to a nanostructured microstructure comprised of equiaxed α-Al grains (60-70 nm) and secondary particles and phases; the SiCp with a damaged facet, the phase exhibiting high Mg content and the intermetallic CuAl2 phase, for the Al-Si-Cu/SiCp composite. The values of the tensile strengths and hardness of the HPT specimens are nearly twice higher than those of the EXTR specimens for the Al-Si-Cu alloy and the Al-Si-Cu/SiCp composite. Ball-on-disc tests were used to examine the wear resistance of the processed materials. The wear test results indicated that HPT processing significantly reduces the wear loss, thereby leading to improvement in the load bearing capacity and the wear resistance of the Al-Si-Cu alloy and the Al-Si-Cu/SiCp composite. This behavior is linked to HPT processing, based on the refined and homogenous microstructure that results in an increase in the hardness.
Keywords
Related Topics
Physical Sciences and Engineering
Materials Science
Materials Science (General)
Authors
Ceren Gode, Hakan Yilmazer, Ismail Ozdemir, Yoshikazu Todaka,