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Name: Fei CHEN
Title: Associate Professor
Office: 1954 Huashan Road (in Shanghai Jiao Tong University)
Platform: Institute of Forming Technology & Equipment
Biographical InformationI obtained PhD from Shanghai Jiao Tong University (SJTU) in 2012. I had worked as a research fellow at SJTU and University of Nottingham (UoN) before I joined the Institute of Forming Technology & Equipment as an assistant Professor.
Research Interests Basic theory and method of advanced plastic processing technology
 Modelling and simulation of the microstructure evolution during hot metal forming
Selected Publications Forging Handbook 2019.
 Fei Chen*, Huajia Zhu, Haiming Zhang, Zhenshan Cui. Mesoscale modeling of dynamic recrystallization: Multilevel cellular automaton simulation framework. Metallurgical and Materials Transactions A, 2020, 51: 1286-1303.
 Huajia Zhu, Fei Chen*, Haiming Zhang, Zhenshan Cui. Review on modeling and simulation of microstructure evolution during dynamic recrystallization using cellular automaton method. SCIENCE CHINA Technological Sciences, 2020, 63:357-396.
 Fei Chen*, He Wang, Huajia Zhu, Zhenshan Cui. High-temperature deformation mechanisms and physical-based constitutive modeling of ultra-supercritical rotor steel. Journal of Manufacturing Processes, 2019, 38:223-234.
 Jianli He, Fei Chen*. A modified Johnson-Cook model for 10%Cr steel at elevated temperatures and a wide range of strain rates. Materials Science and Engineering A, 2018, 715:1-9.
 Fei Chen, Hengan Ou*, Shakir Gatea, Hui Long. Hot tensile fracture characteristics and constitutive modelling of polyether-etherketone (PEEK). Polymer Testing, 2017, 63:168-179.
 Fei Chen*, Guowei Feng, Zhenshan Cui *. New constitutive model for hot working. Metallurgical and Materials Transactions A, 2016, 47:1229-1239.
 Fei Chen*, Facai Ren, Jun Chen, Zhenshan Cui, Hengan Ou*. Microstructural modeling and numerical simulation of multi-physical fields for martensitic stainless steel during hot forging process of turbine blade. The International Journal of Advanced Manufacturing Technology, 2016, 82:85-98.
 Fei Chen, Gatea Shakir, Hengan Ou*, Hui Long. Fracture characteristics of PEEK at various stress triaxialities. Journal of the Mechanical Behavior of Biomedical Materials, 2016, 64:173-186.
 Fei Chen, Hengan Ou*, Bin Lu, Hui Long. A constitutive model of polyether-ether-ketone (PEEK). Journal of the Mechanical Behavior of Biomedical Materials, 2016, 53:427-433.
 Fei Chen, Zhenshan Cui, Hengan Ou*, Hui Long. Mesoscale modeling and simulation of microstructure evolution during dynamic recrystallization of a Ni-based superalloy. Applied Physics A, 2016, 122:890-903.
 Fei Chen, Juan Liu, Hengan Ou*, Bin Lu, Zhenshan Cui, Hui Long. Flow characteristics and intrinsic workability of IN718 superalloy. Materials Science and Engineering A, 2015, 642:279-287.
 Dingqian Dong, Fei Chen*, Zhenshan Cui*. A physically-based constitutive model for SA508-III steel: Modeling and experimental verification. Materials Science and Engineering A, 2015, 634:103-115.
 Fei Chen*, Ke Qi, Zhenshan Cui*, Xinmin Lai. Modeling the dynamic recrystallization in austenitic stainless steel using cellular automaton method. Computational Materials Science, 2014, 83:331-340.
 Fei Chen*, Zhenshan Cui, Jun Chen. Prediction of microstructure evolution during hot forging. Manufacturing Review, 2014, 1:6.
 Fei Chen, Zhenshan Cui*, Dashan Sui. Recrystallization of 30Cr2Ni4MoV ultra-super-critical rotor steel during hot deformation. Part Ш: Metadynamic recrystallization. Materials Science and Engineering A, 2012, 540:46-54.
 Fei Chen, Zhenshan Cui*. Mesoscale simulation of microstructural evolution during multi-stage hot forging processes. Modelling and Simulation in Materials Science and Engineering, 2012, 20(045008):1-16.
 Fei Chen, Zhenshan Cui*, Shijia Chen. Recrystallization of 30Cr2Ni4MoV ultra-super-critical rotor steel during hot deformation. Part Ι: Dynamic recrystallization. Materials Science and Engineering A, 2011, 528: 5073-5080.
 Fei Chen, Zhenshan Cui*. Mesoscale simulation of the high-temperature austenitizing and dynamic recrystallization by coupling a cellular automaton with a topology deformation technique. Materials Science and Engineering A, 2010, 527:5539-5549.
 Fei Chen, Zhenshan Cui*, Juan Liu, Xiaoxun Zhang, Wen Chen. Modeling and simulation on dynamic recrystallization of 30Cr2Ni4MoV rotor steel using the cellular automaton method. Modelling and Simulation in Materials Science and Engineering, 2009, 17(075015):1-19.
Honors & Awards2011 Shanghai Execellent Graduate
2016 PDPR Level 1 of the University of Nottingham
2016 The Best Paper of the Journal of Iron and Steel Research, International
2018 Shanghai Pujiang Talents Program
2019 The Best Paper of the 16th China Society for Techonology of Plasticity