Welcome to collaborative innovation center of steel technology !
Chinese
Advanced Energy Steel Research Team

Team Introduction

    Jinshan He    assistant professor

inshan He, the assistant professor of Collaborative Innovation Center of Steel Technology, received her Ph.D. from RWTH Aachen University in 2018. Her recent research interest is on the micromechanism and simulation of damage behavior for metals during se


Jinshan He, the assistant professor of Collaborative Innovation Center of Steel Technology, received her Ph.D. from RWTH Aachen University in 2018. Her recent research interest is on the micromechanism and simulation of damage behavior for metals during service, especially for the steels and superalloys.


Research Projects

  1. Project funded by China Postdoctoral Science Foundation, (No.2019M650484) , 2019 -2020

Publications

  1. Jinshan He, Junhe Lian*, Anke Aretz, Napat Vajragupta, Ude Hangen, Frank Goodwin, Sebastian Münstermann, Fracture properties of zinc coating layers in a galvannealed steel and an electrolytically galvanized steel, Materials Science & Engineering A [J]., 2018, 732: 320-325

  2. Jinshan He, Junhe Lian*, Georg Golisch, An He, Yidu Di, Sebastian Münsterman, Investigation on micromechanism and stress state effects on cleavage fracture of ferritic-pearlitic steel at −196 °C, Materials Science & Engineering A [J]., 2017, 686: 134-141

  3. Jinshan He, Junhe Lian*, Georg Golisch, Xiaodong Jie, Sebastian Münstermann, A generalized Orowan model for cleavage fracture, Engineering Fracture Mechanics[J].,2017, 186: 105–118

  4. Jinshan He, Xitao Wang, Yang Zhang, Yameng Zhao, Hailong Zhang*, Thermal conductivity of Cu–Zr/diamond composites produced by high temperature–high pressure method, Composites: part B[J].,2015, 68: 22–26

  5. Jinshan He; Hailong Zhang; Yang Zhang; Yameng Zhao; Xitao Wang* ,Effect of boron addition on interface microstructure and thermal conductivity of Cu/diamond composites produced by high temperature-high pressure method , Physica Status Solidi A[J], 2014.03, 211(3):587~594.

  6. 何金珊 ; 张海龙; 张洋; 李建伟; 王西涛*, 超高压熔渗法制备铜/金刚石复合材料的热导率, 材料研究学报[J], 2014, (05): 321~324.

  7. Jinshan He, Microstructure informed modeling of cleavage fracture[M], Shaker Verlag, Aachen, 2018

 

©Copyright 2013 钢铁共性技术协同创新中心 版权所有