何金珊

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教育经历


1. 本硕:北京科技大学

2. 博士学位:德国亚琛工业大学


工作经历



1. 2018.12~2020.12 助理研究员

2. 2021.01~至今 副研究员



个人简介


何金珊,副研究员,国家重点研究计划重点专项首席青年科学家,北科青年学者。目前主要从事先进钢铁及高温合金的服役损伤行为研究。以第一作者/通讯作者在国内外SCI学术期刊发表了30余篇Top论文, 包括Materials Science & Engineering AJournal of Materials Research & TechnologyMaterials CharacterizationEngineering Fracture Mechanics和金属学报等专业领域著名期刊,申请国家发明专利6项。主持国家重点研发计划、国家自然科学基金、重大国防项目和和大中型企业合作等项目。



研究方向


1、航天用高温合金强韧化设计

2、燃机高温合金服役损伤行为

3、先进能源用钢智慧化设计与评价



科研成果


【科研项目】

1. 国家重点研发计划重点专项,抗疲劳高止裂非均质组织风电用钢研究,主持

2. 国家自然科学基金,具有低层错能的新型γ′相强化钴基单晶高温合金低周疲劳损伤机制,主持

3. 国防基础科研计划预研项目,******,主持

4. 广东省重点研发计划,高温合金多尺度全流程制备研发及应用示范,参与

5. 东方电气汽轮机有限公司, 燃机定向凝固合金MarM247LC长时静态时效和蠕变微观组织演化研究,主持

6. 中央高校基本科研业务费青年人才培养基金,超级奥氏体不锈钢热加工的多尺度组织调控,主持

7. 莱钢,420MPa级风电用钢板焊接疲劳性能机理研究与应用,参与

8. 中广核,中广核-北科大先进能源材料与服役安全联合研发中心科技合作服务,参与


【学术论文】

1.     Rui Liu, Xitao Wang, Pinpin Hu, Chengbo Xiao, Jinshan He*, Low cycle fatigue behavior of micro-grain casting K4169 superalloy at room temperature, Progress in Natural Science: Materials International [J]., 2022, 32(6): 693-699

2.     Yue Wang, Xitao Wang, Rui Liu, Pinpin Hu, Chengbo Xiao, Jinshan He*,Improved Tensile Properties of Micro-grain Casting K447A Alloy, Metallurgical and Materials Transactions A [J]., 2022

3.     Shiguang Xu, Jinshan He*, Runze Zhang, Fucheng Zhang, Xitao Wang, Hot deformation behaviors and dynamic softening mechanisms of 7Mo super-austenitic stainless steel with high stacking fault energy, Journal of Materials Research and Technology [J]., 2023,23: 1738-1752

4.    Runze Zhang, Jinshan He*, Shiguang Xu, Fucheng Zhang, Xitao Wang*, The roles of Ce and Mn on solidification behaviors and mechanical properties of 7Mo super austenitic stainless steel, Journal of Materials Research and Technology [J]., 2023,22: 1238-1249

5.      Runze Zhang, Jinshan He*, Shiguang Xu, Yizhan Ma, Fucheng Zhang, Xitao Wang*,A σ phase-γ phase orientation relationship observed in solidification of the 7Mo super-austenitic stainless steel [J]., 2022, 21: 1248-1255

6.      Bohao Ma,Xitao Wang,Gang Xu,Jinwu Xu andJinshan He *, Prediction of Creep Curves Based on Back Propagation Neural Networks for Superalloys, Materials[J], 2022, 15(19), 6523

7.     Zhenhuan Gao, Yuhui Sun, Nan Liu, Xitao Wang, Jinshan He*, Role of stress on creep behaviors for MarM247LC DS superalloy, Fatigue & Fracture of Engineering Materials & Structures [J]., 2022

8.      Jinshan He, Xuanlei Wang, Haijing Zhou, Xitao Wang, Low cycle fatigue of a γ’-strengthened Co-based single crystal superalloy at 900 °C, Materials Characterization [J]., 2022

9.     Jinshan He, Xiaofei Guo*, Junhe Lian, Sebastian Münstermann, Wolfgang Bleck*, Delayed cracking behavior of a meta-stable austenitic stainless steel under bending condition, Materials Science & Engineering A[J]., 2019, 768:138470

10.   Jinshan He, Zhengrong Yu, Longfei Li*, Xitao Wang, Qiang Feng, Effect of grit blasting and subsequent heat treatment on stress rupture property of a Ni based single crystal superalloy SGX3, Acta Metallurgica Sinica (English Letters) [J]., 2020,

11.     Jinshan He, Zhengyin Piao, Xitao Wang*, Junhe Lian*, Sebastian Münstermann, Micromechanical modeling of cleavage fracture for a ferritic-pearlitic steel, Engineering Fracture Mechanics [J]., 2020, 186, 105–119

12.   Jinshan He, Min Zou, Longfei Li*, Xitao Wang*, Qiang Feng, Creep behavior of a novel CoNi-base single-crystal superalloy at high temperature and low stress, Materials Letters[J]., 2020, 262:127042

13.      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

14.      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

15.       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

16.     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

17.      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.


【专利】

1. 一种低碳抗疲劳风电用钢板及制备方法,202111200081.6

2. 一种高温合金的蠕变曲线预测方法,202210588091.X

3. 消除含有RE元素的超级奥氏体不锈钢中σ相的热处理工艺,202011235048.2

4. 一种多相复合高强高韧低密度钢及制备方法,202111620047.4

5. 一种耐腐蚀高强度轻质钢及制备方法,202110065205.8



荣誉称号


北科青年学者,国际交流计划引进项目