年間 6 号発行
ISSN 印刷: 1543-1649
ISSN オンライン: 1940-4352
IF:
1.4
5-Year IF:
1.3
Immediacy Index:
2.2
Eigenfactor:
0.00034
JCI:
0.46
SJR:
0.333
SNIP:
0.606
CiteScore™::
3.1
H-Index:
31
Indexed in
Nonuniformity Effect of Surface-Nanocrystalline Materials in Nanoindentation Test
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要約
In the present research, microstructures of the surface-nanocrystalline Al alloy material are observed and measured based on the transmission electron microscopy (TEM) technique, and the corresponding mechanical behaviors are investigated experimentally and theoretically. In the experimental research, the nanoindentation test method is used, and the load and microhardness curves are measured, which strongly depend on the grain size and grain size nonuniformity. Two kinds of the nanoindentation test methods are adopted: the randomly selected loading point method and the continuous stiffness method. In the theoretical modeling, based on the microstructure characteristics of the surface-nanocrystalline Al alloy material, a dislocation pile-up model considering the grain size effect and based on the Mott theory is presented and used. The hardness-indent depth curves are predicted and modeled.
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CHEN LI, WEI YUEGUANG, CHARACTERIZATIONS OF SIZE EFFECT AND OVERALL MECHANICAL BEHAVIOR OF NANOCRYSTALLINE METALS, International Journal of Applied Mechanics, 05, 01, 2013. Crossref
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Chen Li, Wei Yueguang, Overall mechanical behavior of nanocrystalline materials accompanied by damage evolution on grain boundaries, International Journal of Damage Mechanics, 23, 1, 2014. Crossref
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Wu Bo, Wei Yue Guang, A Computational Model for Intergranular Fracture in Nanocrystalline and Ultra-Fine Polycrystalline Metals, Materials Science Forum, 633-634, 2009. Crossref