【 Education Background】

1. 1997-2004, received master's degree from the Department of Metallurgy, Hebei University of Technology.

2. 2004-2008, received Ph. D. degree from School of Materials Science and Engineering, University of Science and Technology Beijing.

【 Work Experience】

1. 2008-2012, worked in Shougang Company,

2. 2012-Present, worked in University of Science and Technology Beijing.

【 Individual Resume】

Engaged in the development and mechanism research of steel materials and hot-rolled products for a long time, and has worked in large iron and steel enterprises for many years, and has rich experience in on-site production and technology development. Developed pipeline steel, low-temperature container steel, oil and gas drilling storage and transportation steel, polar and offshore wind tower steel, coal mining wear-resistant steel, corrosion resistant steel, high-strength engineering machinery steel and other products. Undertook and participated in 4 national research projects, more than 20 school-enterprise cooperation projects; He has published more than 20 academic papers, obtained 12 authorized invention patents, and won 1 second prize of provincial and ministerial science and technology progress.

【 Research Orientation】

Mainly engaged in new materials processing technology and new technology, high-quality steel structural materials research and development, corrosion resistance/wear resistance/low temperature service materials micro-structure control technology research.

【 Achievements】

 

【Research Projects】

1. National High-tech Research and Development Program (863 Program), high-performance wear-resistant steel development (2012AA03A508), 2012-2015

2. National Key Research and Development Plan, CO2 flooding corrosion resistant Oil pipe production Technology (2017YFB0304905), 2017-2021

3. National Key Research and Development Plan, Key Technologies for Preparation and Application of Corrosion-resistant Steel for Marine Building Structures (2021YFB3701702), 2021-2025

4. National Natural Foundation of China, Online Measurement Method of Residual Stress of Hot-rolled High-strength Steel based on electromagnetic Ultrasound (52174352), 2022-2025

5. School-enterprise Project, GPa Grade, Thin Specification, Continuous Heat treatment Technology and Mechanism Research of High Strength Steel Strip, 2019-2023

6. School-enterprise project, Surface quality optimization of common carbon Steel and development of S450AW High-strength Weathering Steel, 2019-2023

7. School-enterprise project, Research and development of hot-rolled High-strength wear-resistant steel, 2020-2022

8. School-enterprise project, Development and application of 800Mpa and 1000Mpa High Strength Steel for Pressure Steel Pipe Production by DQ Process, 2022-2024

9. School-enterprise Project, Research and Development of corrosion-resistant High-strength Steel in Coal mine Complex Media Coupling Environment, 2019-2021

【Academic Papers】

1. Zhang Pengcheng, Wu Huibin, Tang Di et al. Remelting behavior of carbonitrides in Nb-V-Ti and V-Ti microalloyed steels [J]. Acta Metalica Sinica,2007,43(7):753-758.

2. Zhang Pengcheng, WANG Lubing, Tang Di, WU Huibin, HUANG Guojian. Effect of Hot Charge Temperature on Microstructure and precipitation behavior of X80 Pipeline Steel [J]. Heat Treatment of Metals, 2008,33 (10): 99-102.

3. Zhang Pengcheng, Tang Di, WANG Lubing et al. Study on remelting of Nb, V and Ti carbonitrides in Low carbon microalloyed Steels [J]. Heat Treatment of Metals,2007,32 (6): 41-44.

4. Zhang Pengcheng, Tang Di, WANG Lubing et al. Research on sulfide stress corrosion Cracking of X80 grade pipeline Steel [J]. Materials Protection,2008,41(7):10-12.

5. Zhang Pengcheng. Strain-induced martensitic behavior of 316L stainless steel under warm deformation conditions[J]. Heat treatment of metals, 2019,44 (2): 48-53.

6. Zhang Pengcheng, Wu Huibin. Pitting behavior of GCr15 bearing Steel in hydrochloric acid Solution[J]. Corrosion and Protection, 2019,40 (12): 893-897.

7. Zhang Pengcheng, Wu Huibin. Effect of Ti microalloying on microstructure and properties of refractory building Steel[J]. Heat Treatment of Metals, 2022, 47(2): 9-13

8. 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[J]. Journal of Iron and Steel Research, International, 2016, 23(3),48-54.

9. J.M. Liang, H. B. Wu, D. Tang, P. C. Zhang and X. T. Liu. Influence of Inclusion and Grain Boundary on Corrosion Behaviour of Low Alloy Steel in Cargo Oil Tank Bottom Plate Environment[J]. Corrosion Engineering, Science and Technology, 2014, 49(7), 633-641.

10. Jinming Liang，Di Tang，Pengcheng Zhang，Huibin Wu，Hongyan Mao Xiaotong Liu. Corrosion Behavior of Low-Alloy Steel in COT Upper Deck O2-CO2-SO2-H2S Moisture Environment[J]. Advanced Materials Research, 2013, 916-922,

【 Monographs】

1. Theoretical Basis and Variety Development of High Quality Hot Rolled Strip Steel, Metallurgical Industry Press, 2016.

【 Patents】

1. A 600MPa grade high-strength construction machinery steel and its production method ZL 201010237136.6

2. A multifunctional salt spray corrosion testing machine ZL 202021148515.3

3. A carbon dioxide corrosion-resistant seamless steel pipe and a preparation method thereof ZL 202010018429.9

4. A CO2 corrosion-resistant steel pipe and a preparation method ZL202110093258.0

5. The invention relates to 510L steel capable of high line energy welding and a manufacturing method ZL 202011533037.2

6. A low carbon non-tempering plastic die steel with full bainite structure and a preparation method ZL 201210419491.4

7. A high-strength weathering steel and a manufacturing method thereof ZL 201010125410.0

8. A production method of Cu-containing low alloy steel ZL 201010235930.7

9. A method for producing SPA-H high-strength weathering steel ZL 201110149793.X by using a continuous annealing unit

10. The invention relates to a production method of hot rolling steel for a limit specification mixing tank ZL 201110183435.0

11. A method for eliminating the shape defect of hot rolled high strength steel plate ZL 200910093663.1

12. A residual stress removal method for hot rolled high strength steel ZL 201010162933.2

【 Rewards】

1. Jiangsu Province Science and Technology Award, Second Prize, "Development and Industrialization of Key Technologies of Series low-temperature Structural Steel for Offshore Energy Engineering", 2018