【Education Background】 

1. 1996-2000, majored in Materials Science and Engineering, Hebei University of Technology, and got the bachelor’s degree.

2. 2000-2006, graduated from the college of Materials Science and Engineering, University of Science and Technology Beijing, and got the doctor’s degree.

【 Work Experience】

1. 2006-2015, Variety Development Department, Institute of Engineering Technology, University of Science and Technology Beijing

2. 2013-2014, Visiting Scholar, Wayne State University, USA

3. 2015-Present, Collaborative Innovation Center of Steel Technology, University of Science and Technology Beijing

【 Individual Resume】

Professor, doctoral supervisor, currently deputy director of Steel Generic Technology Collaborative Innovation Center, and director of Advanced Metal Materials Research Institute. Jiangsu Province double innovation talent, Wuxi Taihu talent, Chinese Society of Metals Rolling Steel Branch welding pipe committee, CSTM oil drilling equipment material technical committee, "Metals", "Iron and Steel" and other periodicals editorial board. He has hosted more than 60 national Key research and development projects under the 13th and 14th Five-Year Plan, the National Nature Foundation and school-enterprise cooperative scientific research projects, and published more than 200 academic papers, authored 2 monographs and authorized more than 50 invention patents in ACTA, Corrosion Science, JMST, MC, MSEA and Acta Metallized Journals and other periodicals. It has won 2 first prizes and 3 second prizes of provincial and ministerial science and technology progress.

【Research Orientation】

1. Design and micro-structure control technology of high-strength/corrosion-resistant/wear-resistant steel materials;

2. Research and development of high-performance steel materials for clean energy such as hydrogen energy/wind power/hydropower;

3. New technology of metal material processing.

【Achievements】

【Research Projects】

1. 14th Five-Year National Key Research and Development Plan, "Failure Mechanism and Material Design of Steel for Marine Building Structures" (2021YFB3701701)

2. 13th Five-Year National Key Research and Development Plan, "CO2 flooding corrosion resistant Oil Pipe Production Technology" (2017YFB0304905)

3. National Key Research and Development Plan for the 13th Five-Year Plan, "Structure Evolution Law and Key Manufacturing Technology of Nickel-free LNG Steel" (2017YFB0305003-01)

4. National Natural Science Foundation of China, "Mechanism of influence of Pre-deformation-Pre-Phase Transformation on microstructure Formation and thermal Stability of nano-bainite" (51774033)

5. National Natural Science Foundation of China, "Microstructure Control and Deformation Mechanism of Micron/Nano Bimodal Scale Reversed Austenite" (51474031)

6. Science and Technology Support Program, "Corrosion Resistance and Strengthening and toughening Technology of Low alloy Steel in High sulfur and high acid oil and gas Environment" (2011BAE25B01)

7. National Key Project, "CO2 Supercritical Transport and Cyclic Gas Injection Technology" (2011ZX05016-004)

8. National "863" program, "High-performance wear-resistant Steel Development" (2012AA03A508)

9. National "973" Program, "Research on Some Key Scientific Issues of CLAM in China" (2008GB717802)

10. Guangxi Science and Technology Department "Study on Composition and Organizational Properties of low-cost series High-strength Automotive Panels"

11. School-enterprise cooperation: "Development and Application of 800MPa and 1000MPa high-strength hydropower steel"

12. School-enterprise cooperation: "GPa Grade High strength Steel strip continuous Heat treatment Technology and mechanism Research"

13. School-enterprise cooperation: "Development of key technologies for High ductility Ship Steel"

14. School-enterprise cooperation: "Research and development of high strength and toughness wind power steel above 420MPa level"

15. School-enterprise cooperation: "Research and Development of Large thickness 420-460MPa class offshore energy Steel"

16. School-enterprise cooperation: "Research and Development of hot-rolled high-strength wear-resistant steel"

17. School-enterprise cooperation: "General carbon steel surface quality optimization and S450AW high strength weathering steel development"

18. School-enterprise cooperation: "Research and development of non-painting refractory construction steel"

19. School-enterprise cooperation: "Research and Development of corrosion-resistant high-strength Steel under Complex medium Coupling Environment of Coal Mine"

20. School-enterprise cooperation: "Research on high-corrosion resistant bridge steel without painting in the harsh environment of the Plateau"

【Academic Papers】

1. Gang Niu, Hatem S. Zurob, R.D.K. Misra, Qibo Tang, Zhihui Zhang, Minh-Tam Nguyen, Lili Wang, Huibin Wu∗, Yu Zou∗. Superior fracture toughness in a high-strength austenitic steel with heterogeneous lamellar microstructure[J]. Acta Materialia, 2022, (226):117642.

2. Youyou Zhang, Huibin Wu*, Xinpan Yu, Di Tang. Role of Cr in the high-temperature oxidation behavior of CrxMnFeNi high-entropy alloys at 800 ℃ in air[J]. Corrosion Science, 2022 (200): 110211.

3. Jinxu Liu, Huibin Wu*, Jinshan He, Shanwu Yang, Chao Ding. Effect of κ-carbides on the mechanical properties and super paramagnetism of Fe-28Mn-11Al-1.5/1.7C-5Cr lightweight steels[J]. Materials Science & Engineering A, 2022 (849): 143462.

4. Gang Niu, Hatem S. Zurob, R.D.K. Misra, Huibin Wu∗, Yu Zou∗. Strength-ductility synergy in a 1.4 GPa austenitic steel with a heterogeneous lamellar microstructure[J]. Journal of Materials Science & Technology, 2022 (106):133-138.

5. Youyou Zhang, Huibin Wu*, Xinpan Yu, Jinxu Liu, Di Tang. The effect of thermomechanical treatment on the evolution of the grain boundary character distribution in a Cr0.8MnFeNi high-entropy alloy [J]. Materials Characterization, 2022, (190), 112087.

6. Bo Ning, Gang Niu*, R.D.K. Misra, Na Gong, Huibin Wu*. Crystallographic orientation and interface characteristics between in-situ TiC reinforcement and matrix before and after thermal deformation[J]. Materials Characterization,2023, (195), 112500.

7. Rui Yuan, Xinpan Yu, Yajing Zhang, Huibin Wu∗, Hui Guo. Research on corrosion mechanism of microstructure on low alloy steel in humid atmosphere[J]. Materials Today Communications, 2022, (31), 103715.

8. Xinpan Yu, Huibin Wu*, Youyou Zhang, Rui Yuan, Yang Gu, Yuhui Feng. Influence of niobium microalloying on the thermal stability of medium-carbon carbide-free bainitic steel[J]. Journal of Materials Research and Technology, 2021(12): 487-499.

9. Huibin Wu，Biao Ju，Di Tang，Rirong Hu，Aimin Guo，Qiang Kang，Di Wang，Effect of Nb addition on the microstructure and mechanical properties of an 1800MPa ultrahigh strength steel，Materials Science and Engineering A, 2015, 622:61-66.

10. Wu H; Niu G; Cao J; Yang M; Annealing of strain-induced martensite to obtain micro/nanometre grains in austenitic stainless, Materials Science and Technology, 2016, 33(4): 480-486.

11. Huibin Wu, Tao Wu, Gang Niu, Tao Li, Ruiyan Sun, Yang Gu. Effect of the frequency of high-angle grain boundaries on the corrosion performance of 5wt%Cr steel in a CO2 aqueous environment. International Journal of Minerals, Metallurgy and Materials,2018,25(3),315-324.

12.Huibin Wu, Gang Niu, Fengjuan Wu, Di Tang. Reverse-transformation austenite structure control with micro/nanometer size. International Journal of Minerals, Metallurgy and Materials,2017,24(5),530-537.

13. Huibin Wu, Di Wang, Pengcheng Zhang, Jinming Liang, Sheng Liu, Di Tang. Influences of Alloying Elementson Oxidation Behavior of Steels and Microstructure of Oxide Scales.Journal of Iron and Steel Research, International, 2016, 23(3), 48-54.

14. Huibin Wu, Lifu Liu, Lidong Wang, Yueting Liu. Influence of Chromium on Mechanical Properties and CO２/H２S Corrosion Behavior of P110 Grade Tube Steel[J]. Journal of Iron and Steel Research, International, 2014, 21(1), 76-85.

【Monographs】

1. Tang Di, Wu Huibin. Theoretical basis and variety development of high quality hot rolled strip steel. Beijing, Metallurgical Industry Press, 2016.

2. Yuan Shaoqiang, Yang Yuehui, Wu Huibin, Yang Shanwu. Microstructure and evolution of austenitic model steel. Beijing, Beijing Institute of Technology Press, 2016

【 Patents】

1. Wu Huibin, Liu Jinxu, He Jinshan, Wang Xitao, a multiphase composite high strength high toughness low density steel and its preparation method, ZL202111620047.4

2. Wu Huibin, Ding Chao, Zhang Pengcheng, Liu Jinxu, Huang Manli, Ning Bo, a 1.1GPa lamellae-phase Martensitic-ferrite duplex steel and its preparation method, ZL202111496429.0

4. Wu Huibin, Yu Xinfan, Gu Yang, Zhang Youyou, et al., a preparation method of ultra-high strength medium carbon nano-bainite steel, ZL202110141726.7

5. Wu Huibin, Yu Xinfan, Gu Yang, Zhang Youyou et al., A preparation method of niobium containing nano-bainite steel with good thermal stability, ZL202110148605.5

6. Wu Huibin, Gu Yang, Zhang Zhihui, Zhang Pengcheng, a CO2 corrosion resistant steel plate and its preparation method, ZL202110097162.1

7. Wu Huibin, Gu Yang, Zhang Zhihui, Zhang Pengcheng, a CO2 corrosion resistant steel pipe and its preparation method, ZL202110093258.0

8. Wu Huibin, Zhang Youyou, Zhang Pengcheng, et al., a high-strength and tough CrMnFeNi duplex high-entropy alloy and its preparation method, ZL202110316737.4

9. Wu Huibin, Niu Gang et al., Nano/Ultra-fine crystal structure ultra-high strength plastic Austenitic stainless steel and its preparation method, ZL201810675835.5

10. Wu Huibin, Wu Fengjuan, Tang Di, Sun Jiguan, Liang Guoli, Li Xu, a preparation method of micro/nano structure ultra-high strength plastic stainless steel containing Nb, ZL201210431651.7

11. Wu Huibin, Liang Guoli, Yang Shan-Wu, Tang Di, a nano-structured ultra-high strength plastic low alloy steel and its preparation method, ZL201210127483.2

12. Wu Huibin, Deng Shen, Zhang Pengcheng, Niu Gang, Zhao Zhengzhi, et al., A 510L steel capable of high line energy welding and its manufacturing method, ZL202011533037.2

13. Wu Huibin, Wang Chao, Li Zhichao, Zhang Pengcheng, a controlled rolling and cooling production process of F+P steel plate with low yield ratio and thin specification, ZL201811131983.7

14. Wu Huibin, Xu Lixiong et al., Preparation method and application of 550MPa grade ultra-fine crystal high strength weathering steel, ZL201710703326.4

15. Wu Huibin, Li Cong-cong, Zhao Ai-min, Tang Di, Wang Di, a corrosion resistant NM400 wear-resistant steel and its preparation method, ZL201510112624.7

【Rewards】

1. Research and development and industrial application of weldable abrasion resistant steel plate and its complete sets of equipment for high-end manufacturing, Second Prize of Science and Technology Progress of Shandong Province, 2021

2. Development and application of high-performance structural steel plate for high-power tower wind power generation, Third Prize of Metallurgical Science and Technology Progress, 2021

3. Key technology Research and development and industrial application of steel plate for major fully mechanized coal mine equipment, Third Prize of Metallurgical Science and Technology Progress, 2021

4. Key Technology Development and industrialization of series low-temperature structural steel for offshore energy Engineering, Second Prize of Science and Technology Progress of Jiangsu Province, 2019

5. Development and industrial application of low-temperature ductile structural steel plates for Arctic and sea cold regions, Third Prize of Metallurgical Science and Technology Progress, 2018

6. Development and application of high-performance wear-resistant steel for easy welding, Third Prize of Metallurgical Science and Technology Progress, 2018

7. Development and key technology research of steel plate for high-performance boiler container, Second Prize of Science and Technology Progress of Jiangxi Province, 2016

8. Research and innovation on key technologies of 4300mm wide and thick plate production line. Won the first prize of Shandong Metallurgical Science and Technology Progress, 2014

9. Research and application of steel for Strategic Petroleum storage tank series, Nanjing Science and Technology Progress First Prize, 2012

10. High strength ship plate development and basic technology research, Jiangxi Science and Technology Progress First Prize, 2010