Welcome to collaborative innovation center of steel technology !
Chinese
Advanced Special Steels Research Team

Team Introduction

    Yinli Chen    The associate professor of Collaborative Innovation Center of Steel Technology

Yinli Chen, the associate professor of Collaborative Innovation Center of Steel Technology. She obtained a bachelor's degree in 1993, a master's degree in 1996, and a doctorate in 2010 from USTB. Engaged in metal material structure performance control,

Yinli Chen, the associate professor of Collaborative Innovation Center of Steel Technology. She obtained a bachelor's degree in 1993, a master's degree in 1996, and a doctorate in 2010 from USTB. Engaged in metal material structure performance control, microscopic deformation mechanism, strengthening and toughening theory and application basic research. It mainly includes: research on quality control technology and development of high-performance long profile production, research and development of high-quality special steel; research on microstructure evolution and residual stress control of sheet metal.

Research Projects

1.      The National Key Technology R&D Program, Microstructure-residual stress synergistic control technology for preparation of high strength and high elasticity Cu-Ni-Si alloy strip, (No. 2016YFB0301302), 2016 -2020

2.      Enterprise cooperation project, Research on process optimization of gear steel bar, Laiwu Iron and Steel, 1.7 million, 2017.12-2019.12

3.      Enterprise cooperation project, Wire product development and quality improvement, Maanshan Iron and Steel, 1.1 million, 2019.4-2020.3

4.      Enterprise cooperation project, Bar product development and quality improvement, Maanshan Iron and Steel, 1.5 million, 2019.4-2020.12

5.      Enterprise cooperation project, Research and development of corrosion-resistant hot-rolled seismic reinforcement, Chengde Iron and Steel, 0.67 million, 2018.12-2019.12

6.      Enterprise cooperation project, Development of decarbonization simulation model for high-end wire heating furnace, Shagang, 790,000, 2018.12-2019.12

Publications

1.      Wei H, Chen Y L, Su L, et al. Effect of Simulated Thermomechanical Processing on Transformation Behavior and Microstructure of 82B Steel[J]. J Iron Steel Res Int., 2019,26(1):69-77.

2.      Liu Z, Chen Y L, Wei H, et al. Study on the distribution of texture and the second phase under different aging process of Cu-Ni-Si alloy[J]. Materials Letters, 2019, 236:292-294.

3.      Wei H, Chen Y L, Su L, et al. Effect of cooling rate and isothermal temperature on the phase transformation and microstructure evolution in SWRH82B high-carbon steel[J]. Materials Research Express, 2018, 5(8)117-126.

4.      Zhang K, Chen Y L, Sun Y H, Xu Z J. Effect of H2O(g) on Decarburization of 55SiCr Spring Steel during Heating [J]. Acta Metallurgica Sinica, 2018, 54(10): 1350-1358.

5.      Niu G, Chen Y L, Wu H B, et al. Corrosion behavior of high-strength spring steel for high-speed railway[J]. International Journal of Minerals, Metallurgy, and Materials, 2018, 25(5):527-535.

6.      Wang X, Chen Y L, Niu G. The study on corrosion resistance of high-strength spring steel[J]. Corrosion Engineering, Science and Technology, 2018, 53(1):54-64.

7.      Wang H, Chen Y L. The effect of finish rolling temperature on the microstructure and properties of non-quenched and tempered Bainite steel[J]. Procedia Engineering, 2017, 207: 1839-1843.

8.      Niu G, Chen Y L, Hui-Bin W U, et al. Effects of Chromium,Vanadium and Austenite Deformation on Transformation Behaviors of High-strength Spring Steels. Journal of Iron and Steel Research, International, 2016 [J]. 2016, 23(12): 81-90.

9.      Chen Y L, Su L, Zhao A M. Effects of Rolling Parameters on Texture and Formability of High Strength Ultra-Low Carbon BH Steel[J]. Journal of Iron and Steel Research, International, 2013, 20(6):75-81.

10.  Chen Y L, Su L, Zhao A M, et al. Texture evolution of 440 MPa grade Nb-bearing high strength IF steel during rolling and annealing process[J]. Journal of Wuhan University of Technology-Mater. Sci. Ed. 2011, 26(6):1157-1161.


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