화학공학소재연구정보센터
검색결과 : 24건
No. Article
1 Modeling of solute hydrogen effect on various planar fault energies
Zhu YX, Zheng ZQ, Huang MS, Liang S, Li ZH
International Journal of Hydrogen Energy, 45(15), 9162, 2020
2 In-situ wire-feed additive manufacturing of Cu-Al alloy by addition of silicon
Wang YH, Chen XZ, Konovalov S, Su CC, Siddiquee AN, Gangil N
Applied Surface Science, 487, 1366, 2019
3 Effect of hydrogen atom and hydrogen filled vacancies on stacking fault energy in gamma-Fe by first-principles calculations
He Y, Li YJ, Zhao X, Yu HB, Chen CF
International Journal of Hydrogen Energy, 44(31), 17136, 2019
4 Significance of stacking fault energy in bulk nanostructured materials: Insights from Cu and its binary alloys as model systems
An XH, Wu SD, Wang ZG, Zhang ZF
PROGRESS IN MATERIALS SCIENCE, 101, 1, 2019
5 Improving the mechanical processing of titanium by hydrogen doping: A first-principles study
Sun L, Xiao W, Huang SH, Wang JW, Wang LG
International Journal of Hydrogen Energy, 43(13), 6756, 2018
6 A revisit to atomistic rationale for slip in shape memory alloys
Chowdhury P, Sehitoglu H
PROGRESS IN MATERIALS SCIENCE, 85, 1, 2017
7 Current state of Fe-Mn-Al-C low density steels
Chen SP, Rana R, Haldar A, Ray RK
PROGRESS IN MATERIALS SCIENCE, 89, 345, 2017
8 Molecular dynamics simulation of nano-indentation of (111) cubic boron nitride with optimized Tersoff potential
Zhao YB, Peng XH, Fu T, Huang C, Feng C, Yin DQ, Wang ZC
Applied Surface Science, 382, 309, 2016
9 Layer wise evolution of the Cu-Zn alloy microstructure after sandblasting
Petrov YN, Vasylyev MA, Trofimova LN, Makeeva IN, Filatova VS
Applied Surface Science, 327, 1, 2015
10 Hydrogen embrittlement in high interstitial alloyed 18Cr10Mn austenitic stainless steels
Phaniraj MP, Kim HJ, Suh JY, Shim JH, Park SJ, Lee TH
International Journal of Hydrogen Energy, 40(39), 13635, 2015