Author Page for Y.C. Wu

Achieving Work Hardening by Forming Boundaries on the Nanoscale in a Ti-Based Metallic Glass Matrix Composite

Number of pages: 48 Posted: 22 May 2019

J. Fan, W. Rao, J.W. Qiao, P.K. Liaw, D. Şopu, D. Kiener, J. Eckert, G.Z. Kang and Y.C. Wu

Taiyuan University of Technology - College of Materials Science and Engineering, Southwest Jiaotong University - Key Laboratory of Advanced Technology for Materials of Education Ministry, Taiyuan University of Technology - College of Materials Science and Engineering, University of Tennessee, Knoxville - Department of Material Science and Engineering, Technical University of Darmstadt - Department of Material Modeling, Montanuniversität Leoben - Department of Materials Science, Montanuniversität Leoben - Department of Materials Science, Southwest Jiaotong University - Key Laboratory of Advanced Technology for Materials of Education Ministry and Taiyuan University of Technology - Laboratory of High-Entropy Alloys

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Abstract:

2.

Remarkable Cryogenic Strengthening and Toughening in Nano-Coherent CoCrFeNiTi _0.2 High-Entropy Alloys via Energetically-Tuning Polymorphous Precipitates

Number of pages: 45 Posted: 25 Oct 2021

J.L. Yuan, Y.C. Wu, Peter K. Liaw, J.H. Luan, Z.B. Jiao, Jia Li, P.D. Han and J.W. Qiao

Taiyuan University of Technology - Laboratory of High-Entropy Alloys, Taiyuan University of Technology - Laboratory of High-Entropy Alloys, University of Tennessee, Knoxville - Department of Material Science and Engineering, City University of Hong Kong - Department of Materials Science and Engineering, The Hong Kong Polytechnic University - Department of Mechanical Engineering, Hunan University - State Key Laboratory of Advanced Design and Manufacturing for Vehicle Body, Taiyuan University of Technology - Laboratory of High-Entropy Alloys and Taiyuan University of Technology - College of Materials Science and Engineering

Downloads 74 (844,901)

Citation 5

Abstract:

3.

Ultralow-Platinum Supported Polyaniline-Mxene Via Facile Electrochemical Strategy for Efficient Hydrogen Evolution

Number of pages: 19 Posted: 12 Nov 2021

Xuan Jian, Tan Li, Shanshan Guo, Feng Fu, Yue Tian, Bining Tian and Y.C. Wu

Taiyuan University of Technology - Institute of New Carbon Materials, South China University of Technology, Taiyuan University of Technology, Yan'an University - Shaanxi Key Laboratory of Chemical Reaction Engineering, Taiyuan University of Technology - Institute of New Carbon Materials, Taiyuan University of Technology and Taiyuan University of Technology - Laboratory of High-Entropy Alloys

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Y.C. Wu

Taiyuan University of Technology - Laboratory of High-Entropy Alloys

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Scholarly Papers (3)

Achieving Work Hardening by Forming Boundaries on the Nanoscale in a Ti-Based Metallic Glass Matrix Composite

Abstract:

Remarkable Cryogenic Strengthening and Toughening in Nano-Coherent CoCrFeNiTi _0.2 High-Entropy Alloys via Energetically-Tuning Polymorphous Precipitates

Abstract:

Ultralow-Platinum Supported Polyaniline-Mxene Via Facile Electrochemical Strategy for Efficient Hydrogen Evolution

Abstract:

Y.C. Wu

Taiyuan University of Technology - Laboratory of High-Entropy Alloys

3

260

5

Scholarly Papers (3)

Achieving Work Hardening by Forming Boundaries on the Nanoscale in a Ti-Based Metallic Glass Matrix Composite

Abstract:

Remarkable Cryogenic Strengthening and Toughening in Nano-Coherent CoCrFeNiTi 0.2 High-Entropy Alloys via Energetically-Tuning Polymorphous Precipitates

Abstract:

Ultralow-Platinum Supported Polyaniline-Mxene Via Facile Electrochemical Strategy for Efficient Hydrogen Evolution

Abstract:

Remarkable Cryogenic Strengthening and Toughening in Nano-Coherent CoCrFeNiTi _0.2 High-Entropy Alloys via Energetically-Tuning Polymorphous Precipitates