Artigos com autorizações de acesso público - Yanfei Wang (王艳飞)Saiba mais
Não disponíveis em nenhum local: 25
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Extra strengthening in a coarse/ultrafine grained laminate: Role of gradient interfaces
YF Wang, MS Wang, XT Fang, FJ Guo, HQ Liu, RO Scattergood, ...
International Journal of Plasticity 123, 196-207, 2019
Autorizações: National Natural Science Foundation of China
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Hetero-deformation induced (HDI) hardening does not increase linearly with strain gradient
YF Wang, CX Huang, XT Fang, HW Höppel, M Göken, YT Zhu
Scripta Materialia 174, 19-23, 2020
Autorizações: US Department of Defense, National Natural Science Foundation of China
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Improved back stress and synergetic strain hardening in coarse-grain/nanostructure laminates
Y Wang, M Yang, X Ma, M Wang, K Yin, A Huang, C Huang
Materials Science and Engineering: A 727, 113-118, 2018
Autorizações: National Natural Science Foundation of China
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Dense dispersed shear bands in gradient-structured Ni
Y Wang, C Huang, Y Li, F Guo, Q He, M Wang, X Wu, RO Scattergood, ...
International Journal of Plasticity 124, 186-198, 2020
Autorizações: National Natural Science Foundation of China
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Quantifying the synergetic strengthening in gradient material
YF Wang, CX Huang, MS Wang, YS Li, YT Zhu
Scripta Materialia, 547-557, 2021
Autorizações: National Natural Science Foundation of China
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Optimizing the strength, ductility and electrical conductivity of a Cu-Cr-Zr alloy by rotary swaging and aging treatment
AH Huang, YF Wang, MS Wang, LY Song, YS Li, L Gao, CX Huang, ...
Materials Science and Engineering: A 746, 211-216, 2019
Autorizações: US Department of Defense, National Natural Science Foundation of China
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The optimum grain size for strength-ductility combination in metals
Y Wang, C Huang, X Ma, J Zhao, F Guo, X Fang, Y Zhu, Y Wei
International Journal of Plasticity 164, 103574, 2023
Autorizações: National Natural Science Foundation of China, Research Grants Council, Hong Kong
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Hetero-zone boundary affected region: a primary microstructural factor controlling extra work hardening in heterostructure
Y Wang, Y Zhu, Z Yu, J Zhao, Y Wei
Acta Materialia 241, 118395, 2022
Autorizações: National Natural Science Foundation of China, Research Grants Council, Hong Kong
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Activating dispersed strain bands in tensioned nanostructure layer for high ductility: the effects of microstructure inhomogeneity
Y Wang, Y Wei, Z Zhao, H Long, Z Lin, F Guo, Q He, C Huang, Y Zhu
International Journal of Plasticity 149, 103159, 2022
Autorizações: National Natural Science Foundation of China
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Synergetic deformation-induced extraordinary softening and hardening in gradient copper
Y Wang, F Guo, Q He, L Song, M Wang, A Huang, Y Li, C Huang
Materials Science and Engineering: A 752, 217-222, 2019
Autorizações: National Natural Science Foundation of China
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Superior strength-ductility synergy achieved by synergistic strengthening and strain delocalization in a gradient-structured high-manganese steel
Q Cheng, Y Wang*, W Wei, F Guo, Q He, M Wang, C Huang
Materials Science and Engineering: A, 141853, 2021
Autorizações: National Natural Science Foundation of China
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Improving strength-ductility synergy in 301 stainless steel by combining gradient structure and TRIP effect
Q He, YF Wang*, MS Wang, FJ Guo, Y Wen, CX Huang
Materials Science and Engineering: A, 139146, 2020
Autorizações: National Natural Science Foundation of China
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Hetero-deformation induced strengthening and toughening of pure iron with inverse and multi-gradient structures
FJ Guo, YF Wang*, MS Wang, Q He, H Ran, CX Huang, YT Zhu
Materials Science and Engineering: A, 139256, 2020
Autorizações: National Natural Science Foundation of China
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The critical grain size for optimal strength–ductility synergy in CrCoNi medium entropy alloy
FJ Guo, YF Wang, MS Wang, W Wei, Q He, QY Wang, CX Huang, RR Jin
Scripta Materialia 218, 114808, 2022
Autorizações: National Natural Science Foundation of China
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Mechanical response of the constrained nanostructured layer in heterogeneous laminate
Y Wang, Y Wei, Z Zhao, Z Lin, F Guo, Q Cheng, C Huang, Y Zhu
Scripta Materialia 207, 114310, 2022
Autorizações: National Natural Science Foundation of China
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The effects of reducing specimen thickness on mechanical behavior of cryo-rolled ultrafine-grained copper
J An, YF Wang, QY Wang, WQ Cao, CX Huang
Materials Science and Engineering: A 651, 1-7, 2016
Autorizações: National Natural Science Foundation of China
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A strong and ductile pure titanium
M Wang, Y Wang, Q He, W Wei, F Guo, W Su, C Huang
Materials Science and Engineering: A 833, 142534, 2022
Autorizações: National Natural Science Foundation of China
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Optimizing the strength and ductility of Cu-Al alloy by an ideal grain structure
H Ran, RR Jin, YF Wang*, MS Wang, Q He, FJ Guo, Y Wen, CX Huang
Materials Science and Engineering: A, 140906, 2021
Autorizações: National Natural Science Foundation of China
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Yielding and fracture behaviors of coarse-grain/ultrafine-grain heterogeneous-structured copper with transitional interface
Y Wang, M Wang, Y Kun, A Huang, Y Li, C Huang
Transactions of Nonferrous Metals Society of China 29 (3), 588-594, 2019
Autorizações: National Natural Science Foundation of China
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Hierarchical strain band formation and mechanical behavior of a heterostructured dual-phase material
Z Li, Y Liu, Y Wang, J Hu, L Xu, J Wang, C Liu, Y Zhu
Journal of Materials Science & Technology 162, 25-37, 2023
Autorizações: National Natural Science Foundation of China, Research Grants Council, Hong Kong
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