Introduction
Dr. Xuejun Jin is a professor and Ph.D. supervisor in Institute of Phase Transformation and Complex Microstructure, School of Materials Science and Engineering, Shanghai Jiao Tong University. He received Bachelor and Master degrees from Nanjing University of Aeronautics and Astronautics and Ph.D. degree in Materials Physics from Institute of Metallurgy, the Chinese Academy of Sciences. He joined Shanghai Jiao Tong University in 1997 and became professor in 2002. He served as Vice Dean of School of Materials Science and Engineering from 2010 to 2018. He is now the director of Institute of Phase Transformation and Complex Microstructure, adjunct professor of Institute of Medical Robotics and Deputy Dean of School of Biomedical Engineering. Research interests include phase transformation and microstructure design for ultrahigh-strength steels, shape memory alloys, smart materials and structures, 3D printing of medical implants and Magnetic Resonance compatible materials.
Biographical Information
- Education
1987.09 ~ 1991.07 Nanjing University of Aeronautics and Astronautics, Materials Science and Technology, Bachelor
1991.09 ~ 1994.03 Nanjing University of Aeronautics and Astronautics, Materials Science and Technology, Master
1994.04 ~ 1997.06 Shanghai Institute of Metallurgy, Chinese Academy of Sciences, Materials Physics, Doctor
- Professional Appointments
1997.07 ~ 1999.05 Shanghai Jiao Tong University, School of Materials Science and Engineering, Postdoc
1999.06 ~ 2002.07 Shanghai Jiao Tong University, School of Materials Science and Engineering, Associate Professor
2000.08 ~ 2000.11 University of Wollongong, Department of Materials Engineering, Senior research fellow
2001.01 ~ 2001.12 Massachusetts Institute of Technology, Department of Materials Science and Engineering, Visiting scientist
2002.08 ~ present Shanghai Jiaotong University, School of Materials Science and Engineering, Professor
- Professional Memberships
1. International Advisory Committee of Martensitic Transformations, Committee Member
2. Technical Committee of Internal Friction and Mechanical Spectroscopy, Chinese Physical Society, Committee Director
3. TMS Structural Materials Division's Steels Committee, Member
4. TMS Phase Transformations Committee, Member
5. The Chinese Society for Metals, Committee Member
Research Interests
- Phase transformations and microstructure design for ultrahigh-strength steels
- Shape memory alloys, Smart materials and structures
- 3D printing of medical implants
- Magnetic Resonance compatible materials
Selected Publications
1. Xiao, Fei*, Kangjie Chu, Zhu Li, Ruihang Hou, Yipeng Gao*, Qingping Sun, and Xuejun Jin*. "Improved Functional Fatigue Resistance of Single Crystalline NiTi Micropillars with Uniformly Oriented Ti3Ni4 Precipitates." International Journal of Plasticity 160 (2023): 103480.
2. Hou, Ruihang, Fei Xiao*, Zhu Li, and Xuejun Jin*. "The Role of Texture on Superelasticity and Elastocaloric Effect in Severely Rolled Ti-44Ni-5Cu-1Al (at%) Shape Memory Alloy." Scripta Materialia 209 (2022): 114334.
3. Xiao, Fei*, Ashley Bucsek, Xuejun Jin*, Marcel Porta, and Antoni Planes*. "Giant Elastic Response and Ultra-stable Elastocaloric Effect in Tweed Textured Fe-Pd Single Crystals." Acta Materialia 223 (2022): 117486.
4. Jia, Xingqi, Wei Li*, Qi Lu, Kuan Zhang, Hao Du, Yuantao Xu, and Xuejun Jin*. "Towards Accurate Prediction for Ultra-low Carbon Tempered Martensite Property through the Cross-correlated Substructures." Materials & Design 211 (2021): 110126.
5. Xu, Yuantao, Wei Li*, Hao Du, Huisheng Jiao, Binggang Liu, Yun Wu, Wei Ding, Yi Luo, Yihong Nie, Na Min, Wenqing Liu, and Xuejun Jin*. "Tailoring the Metastable Reversed Austenite from Metastable Mn-rich Carbides." Acta Materialia 214 (2021): 116986.
6. Li, Zhu, Fei Xiao*, Hong Chen, Ruihang Hou, Xiaorong Cai, and Xuejun Jin*. "Atomic Scale Modeling of the Coherent Strain Field Surrounding Ni.sub.4Ti.sub.3 Precipitate and Its Effects on Thermally-induced Martensitic Transformation in a NiTi Alloy." Acta Materialia 211 (2021): Acta Materialia, 2021, Vol.211.
7. Liu, Shilong*, Bin Hu, Wei Li, R. D. K. Misra, and Xuejun Jin*. "Refined Heterogeneous Phase Unit Enhances Ductility in Quenched Ultra-high Strength Steels." Scripta Materialia 194 (2021): 113636.
8. Song, Yuanwei, Mingjiang Jin*, Xiaocang Han, Xiaodong Wang*, Peng Chen, and Xuejun Jin. "Microstructural Origin of Ultrahigh Damping Capacity in Ni50.8Ti49.2 Alloy Containing Nanodomains Induced by Insufficient Annealing and Low-temperature Aging." Acta Materialia 205 (2021): 116541.
9. Chen, Hong, Fei Xiao*, Xiao Liang, Zhenxing Li, Zhu Li, Xuejun Jin*, and Takashi Fukuda*. "Giant Elastocaloric Effect with Wide Temperature Window in an Al-doped Nanocrystalline Ti–Ni–Cu Shape Memory Alloy." Acta Materialia 177 (2019): 169-77.
10. Xu, Yuantao, Wei Li*, Mingjia Wang, Xiying Zhang, Yun Wu, Na Min, Wenqing Liu, and Xuejun Jin*. "Nano-sized MX Carbonitrides Contribute to the Stability of Mechanical Properties of Martensite Ferritic Steel in the Later Stages of Long-term Aging." Acta Materialia 175 (2019): 148-59.
Research Projects
1. Key Program of the National Natural Science Foundation of China (52031005) Studies on a New Type of Solid-Solid Phase Transformation Associated Giant Elasto-Caloric Materials with Excellent Fatigue Resistance (2021-2025)
2. National Key Research and Development Program of China (2017YFB070300) Rational Design of Special Steels for High-end Equipment Manufacturing (2017-2021)
3. Joint Funds of the National Natural Science Foundation of China (U564203) Strengthening and Toughening Mechanism and Microstructure Design of Ultrahigh-Strength Press-Hardening Steel of Automobile (2016-2019)
4. Key Program of the National Natural Science Foundation of China (51831002) Study of Coupled Precipitation and Phase Transformation Strengthening in Duplex-phase High-Strength Steels (2019-2023)
5. General Program of the National Natural Science Foundation of China (51571141) Quantitative Regulation Mechanism of Carbon Distribution in QPT High-Strength Steels (2016-2019)
6. NSFC Projects of International Cooperation and Exchanges (51911530204) Simulation and Prediction of Microstructure Evolution during Integrated Heat Treatment Process of Automobile Silicon Boron Steels (2019-2021)
7. National Program on Key Basic Research Project of China (973 Program) (2011CB706604) Heat Treatment Process and Microstructure Regulation of Bearing Materials (2011-2015)
8. National Program on Key Basic Research Project of China (973 Program) (2010CB630803) Fundamental Study of Ultrahigh-Strength and Plasticity Sheet Steels with martensite and austenite duplex microstructure (2010-2014)
Honors & Awards
- Excellent Young Teacher Award (2008, Shanghai Municipal Education Commission),
- Huawei Outstanding Teacher Award (2007, Shanghai Jiao Tong University)
- Most Welcomed Teacher Award (2007, School of Materials Science and Engineering, SJTU)
- New Century Outstanding Teacher Award (2006, Department of Education) Second Prize of Natural Science (2000, Department of Education).