Gao Yipeng

Date:2023-04-03 Author: Editor}:材料外事 ClickTimes:

Professor Yipeng Gao

Professor

School of Materials Science and Engineering

Jilin University

5988 Renmin Street, Changchun 130025, China

Tel: (+86) 431-85094375

E-mail: gaoyipeng@jlu.edu.cn

Website: /info/1395/10269.htm

Research Area: Physical metallurgy and materials science


Biography

Prof. Yipeng Gao earned his B.S. and M.S. in Materials Science and Engineering (MSE) from Shanghai JiaoTong University and Ph.D. in MSE from The Ohio State University. He used to work at Idaho National Laboratory as a stuff scientist. He is an expert in advance metals and alloys, focusing on microstructural defect theory and microstructure simulation in metallic materials. He has more than 70 peer-reviewed publications on Acta Materialia, Physical Review Letters, Advanced Functional Materials, etc.

Education

2002.05 - 2006.07   Shanghai JiaoTong University, Bachelor

2006.09 - 2009.12   Shanghai JiaoTong University, Master, Advisor: Prof. Xuejun Jin

2008.06 - 2013.12   The Ohio State University, Ph.D., Advisor: Prof. Yunzhi Wang

Positions

2014.01 - 2017.03   The Ohio State University, Post-doctoral researcher, Advisor: Prof. Yunzhi Wang

2017.03 - 2020.08   Idaho National Laboratory, Research Associate/Stuff Scientist

2020.11 now    School of Materials Science and Engineering at Jilin University, Professor

Professional Service

2018-  The Minerals, Metals & Materials Society (TMS), Member of phase transformation Committee

2021-  Transactions of Nonferrous Metals Society of ChinaYoung Editor

Research Interest

Design and fabrication of advanced metallic materials (e.g., titanium alloys, magnesium alloys, aluminum alloys)

1.  Investigation on crystalline defects based on topological defect theory

2.  Computational simulation of microstructural structural evolution in metallic materials

Selected Publications

1. Gao, Y., Zhao, L., Zha, M., Du, C.-F., Hua Z.-M., Guan, K., Wang H.-Y. “Twinning-induced plasticity with multiple twinning modes and disclinations in Mg alloys”. Int. J. Plast. 164, 103595 (2023).

2. Du, C., Gao, Y., Zha, M., Wang, C., Jia, H., Wang, H.-Y. “Deformation-induced grain rotation and grain boundary formation achieved through dislocation-disclination reactions in polycrystalline hexagonal close-packed metals. Acta Mater. 250, 118855 (2023).

3. Xiao, F., Chu, K., Li, Z., Hou, R., Gao, Y., Sun, Q., Jin, X. “Improved functional fatigue resistance of single crystalline NiTi micropillars with uniformly oriented Ti3Ni4 precipitates”. Int. J. Plast. 160, 103480 (2023).

4. Wang, T., Zha, M., Du, C., Jia, H.-L., Wang, C., Guan, K., Gao, Y., Wang, H.-Y. “High strength and high ductility achieved in a heterogeneous lamella-structured magnesium alloy”. Mater. Res. Lett. 11, 187-195 (2023).

5. Du, C., Gao, Y., Hua, Z.-M., Zha, M., Wang, C., Wang, H.-Y. “Enhanced superplasticity achieved by disclination-dislocation reactions in a fine-grained low-alloyed magnesium system”. Int. J. Plast. 154, 103300 (2022).

6. Gao, Y., Zhang, Y., Wang, Y. “Determination of twinning path from broken symmetry: A revisit to deformation twinning in bcc metals”. Acta Mater. 196, 208-294 (2020).

7. Gao, Y., Zheng Y., Fraser, H. L., Wang, Y. “Intrinsic coupling between twinning plasticity and transformation plasticity in metastable β Ti-alloys: A symmetry and pathway analysis”. Acta Mater. 196, 488-504 (2020).

8. Gao, Y., Zhang, Y., Aagesen, L. K., Yu, J., Long, M., Wang, Y. “Defect-free plastic deformation through dimensionality reduction and self-annihilation of topological defects in crystalline solids”. Phys. Rev. Res. 2, 013146 (2020).


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