【 Education Background】

1. 1995.3-1998.1, received a PhD degree in Materials Physics from the Institute of Metal Research, Chinese Academy of Sciences

2. 1986.9-1989.6, Master degree in Metal Materials Science, Zhejiang University

3. 1978.9-1982.7, obtained a bachelor's degree in Foundry from Nanchang University

【 Work Experience】

1. From May 2015 to now, Researcher of Collaborative Innovation Center of Steel Generic Technology, University of Science and Technology Beijing

2. 2009-9 to 2010-4, Senior Research Scholar, Department of Metallurgy, University of Utah, USA (supported by China Scholarship Council)

3. 2002-6 to 2002-9, RISO National Laboratory Materials Research Institute, Denmark (China-Denmark Science and Technology Cooperation Project)

4. 2001-8-2002-6, Department of Physics, Technical University of Denmark (Sino-Danish Science and Technology Cooperation Project)

5. 1999-12 to 2015-4, Researcher, State Key Laboratory of New Metal Materials, University of Science and Technology Beijing

6. 1998-2 to 1999-12, Postdoctoral Fellow, Department of Material Science and Engineering, University of Science and Technology Beijing

7. 1989-9 to 1998-1, Associate Professor, School of Mechatronics, Nanchang University

8. 1982-8 to 1986-7, Assistant and Lecturer, School of Mechanical and Electrical Engineering, Nanchang University

【 Individual Resume】

Long-term engaged in advanced energy steel, material service safety, full life cycle evaluation research and development work. Presided over more than 30 various scientific research projects, and cooperated with Taihai Manur Nuclear Power Equipment Co., LTD., Angang Heavy Machinery Co., Ltd. and other enterprises to complete the research and development of the second and third generation pressurized water reactor main pipelines, and the products were used in more than 20 new nuclear power units. Responsible for the national 863 program key project "Large pressurized water reactor nuclear power plant key structural materials and engineering application technology" scientific research achievements were selected for the "eleventh Five-Year" national major scientific and technological achievements exhibition. More than 50 national invention patents have been authorized, and more than 300 academic papers have been published. It has trained 2 postdocs and more than 80 doctoral and master's students.

【 Research Orientation】

1. Research and development of advanced energy structural materials;

2. Life cycle evaluation of high-performance aluminum alloy for automotive panels;

3. Material digital research and development of new technology.

【Achievements】

【 Research Projects】

1. Nuclear Technology Support Center, State Administration of Science, Technology and Industry for National Defense, high-temperature materials for reactor nuclear grade equipment.

2. Major project of National 863 Plan, AP1000 Pressurized water reactor main pipe material and forming key technology (2012AA03A507).

3. National 863 Program project, Rheological extrusion forming technology of high wear-resistant deformed aluminum alloy (2009AA03Z523).

4. Key Project of National 863 Program, Key Structural Materials and Engineering Application Technology of large Pressurized water reactor nuclear Power Plant (2008AA031702).

5. National Natural Science Foundation of China, Formation and Control Mechanism of jet forming Amorphous (50671013).

6. National 863 Program project, Practical preparation technology of high-strength bulk nanostructured materials, (2002AA302502).

7. New model project of Ministry of Industry and Information Technology, research and development of 6XXX series aluminum alloy for automotive panels based on material genetic engineering.

8. China Nuclear Power Engineering Co., LTD., Debris Bed Remelting medium temperature experimental Facility (CNPHFZ22KY2N0042/00).

9. Key Research and Development Project of Shandong Province, Key Technology of tunnel boring machine hob Ring research and development and intelligent boring (2021CXCG010209).

10. General Research Institute of Iron and Steel, Steam Generator Main Structure material Performance test and structure Analysis (562017390).

11. Luoyang Zhongrecasting and Forging Co., LTD., developed third-party verification technology for RPV cylinder 1 forging simulation.

【Academic Papers】

1. Li Zhang, Yunzhu Shi, Qilu Ye, Bin Yang*. Enhanced corrosion−resistance of AlTiCrFeMoSi high entropy alloy coating by magnetron sputtering, Coatings, 2023, 13, 13020332.

2. Qilu Ye, Bin Yang*, Gang Yang, Jiqing Zhao, Zhihua Gong. Stability prediction of AlCoCrFeMo0.05Ni2 high entropy alloy by Kinetic Monte Carlo method, Materials Letters, 2022, 306:130907.

3. Xudong Chen, Hongchang Qian, Yuntian Lou, Bin Yang*, Tianyu Cui, Dawei Zhang. Effects of Cu-content and passivation treatment on the corrosion resistance of Al0.3CuxCoCrFeNi high-entropy alloys, Journal of Alloys and Compounds, 2022, 920, 165956.

4. Xudong Chen, Yusheng Li, Yuntian Zhu, Yuefeng Chen, Bin Yang*. Layer-by-layer corrosion behavior of 316LN stainless steel with a gradient-nanostructured surface. Electrochemistry Communications, 2022, 110: 106642.

5. Qilu Ye, Gang Yang, Bin Yang*. Segregation engineering in a promising heat-resistant AlCoCrFeMo0.05Ni2 high entropy alloy. Journal of Alloys and Compounds, 2021, 869: 159336.

6. Qilu Ye, Bin Yang*, Jiqing Zhao, Gang Yang. AlCoCrFeNi1.9 (Mo, Nb, Hf, C) high entropy alloy strengthened by a novel long-period stacking ordered (LPSO) structure and (Nb, M) C (M= Mo, Hf, Cr). Materials Letters, 2021, 304: 130646.

7. Yuefeng Chen, Bin Yang*, Yangtao Zhou, Yuan Wu, Huihui Zhu. Evaluation of pitting corrosion in duplex stainless steel Fe20Cr9Ni for nuclear power application, Acta Materialia, 2020, 197:172-183.

8. Xin Dai, Tao Peng, Yuefeng Chen, Bin Yang*. The correlation between martensite austenite islands evolution and fatigue behavior of SA508-ІV steel. International Journal of Fatigue, 2020, 139: 105776.

9. Xudong Chen, Yusheng Li, Yuntian Zhu, Yakui Bai, Bin Yang*. Improved corrosion resistance of 316LN stainless steel performed by rotationally accelerated shot peening, Applied Surface Science, 2019, 481: 1305-1312.

10. Xudong Chen, Yuntian Zhu, Yusheng Li, Bin Yang*. Enhanced irradiation and corrosion resistance of 316LN stainless steel with high densities of dislocations and twins. Journal of Nuclear Materials, 2019, 517: 234-240.

11. Yuefeng Chen, Xin Dai, Xudong Chen, Bin Yang*, The characterization of G-phase in Fe20Cr9Ni cast duplex stainless steel, Materials Characterization, 2019, 149:74-81.

12. Qilu Ye, Gang Yang, Bin Yang*, Effect of aging on microstructure and property of AlCoCrFeMo0.05Ni2 high entropy alloy. Materials Science and Engineering: A, 2019, 760: 1-6.

13. Yunzhu Shi, Liam Collins, Rui Feng, Chuan Zhang, Nina Balke, Peter K. Liaw, Bin Yang*, Homogenization of AlxCoCrFeNi high-entropy alloys with improved corrosion resistance, Corrosion Science, 2018, 133: 120~131.

14. Yunzhu Shi, Liam Collins, Nina Balke, Peter K. Liaw, Bin Yang*, In-situ electrochemical-AFM study of localized corrosion of AlxCoCrFeNi high-entropy alloys in chloride solution, Applied Surface Science, 2018, 43(9): 533~544.

15. Ye You, Yuefeng Chen, Bin Yang*. Passive film properties of Z3CN20.09M duplex stainless steel aged for different times, Materials and Corrosion, 2018, 69:1205-1217.

 

【Patents】

1. Preparation of degradable magnesium alloy sliding sleeve fracturing ball and method for controlling degradation rate, Patent No. ZL201911096925.X.

2. Surface treatment and test method for improving corrosion resistance of inner wall of SA106B low carbon steel pipe, Patent number: ZL201910234481.5.

3. A method for semi-in-situ observation of pitting pit initiation position, patent No. ZL201910426023.1.

4. Surface treatment method for improving radiation resistance and corrosion resistance of 316LN Austenitic stainless steel, Patent number: ZL20181008801370.

5. Parallel Dynamics Monte Carlo Software for Aluminum alloy, Software copyright, 2019R11S1490955.

6. Surface treatment method for improving radiation resistance and corrosion resistance of 316LN Austenitic stainless steel, Patent number: ZL20181008801370.

【 Honorary Title】

8th "Research Teacher and Friend-My Favorite Mentor" University of Science and Technology Beijing