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谢振家

办公室:主楼251 职称:副研究员 Email:zjxie@ustb.edu.cn

研究方向

高性能钢铁材料组织性能调控;钢铁材料强韧化机理;钢铁材料显微组织精细表征;钢铁材料成型与显微组织演变仿真


教育经历

2014/11-2015/11 加拿大麦克马斯特大学,材料系,联合培养

2013/03-2013/07 台湾大学,材料系,访学

2010/09-2016/07 北京科技大学,材料科学与工程学院,博士

2006/09-2010/07 北京科技大学,材料物理系,学士


工作经历

2022至今  北京科技大学新金属材料国家重点实验室副研究员

2020-2022 北京科技大学钢铁共性技术协同创新中心副研究员

2019-2020 北京科技大学钢铁共性技术协同创新中心助理教授

2017-2019 北京科技大学钢铁共性技术协同创新中心博士后


荣誉和奖励

1.2018年,“基于M3组织调控的钢铁材料基础理论研究与高性能钢技术”获国家技术发明二等奖;

2.2023年,被评为《International Journal of Minerals, Metallurgy and Materials》和《工程科学学报》优秀青年编委。


主要论文著作

1. P. Han, Liu Z.P., Li Q., Xie Z.J.*, Wang X.L., Misra R.D.K., Shang C.J. (2023). A phenomenological understanding of the novel design of hierarchical structure for 1 GPa ultrahigh strength and high toughness combination low alloy steel, Materials Science & Engineering A 881, 145387.

2. Xie Z.J., Han P., Liu Z.P., Wang X.L., C.J. Shang (2023) Influence of initial microstructure on reaustenitization behavior in low alloy steel by in-situ high-temperature EBSD characterization, Materials Letters 350, 134876.

3. Han P., Liu Z.P., Xie Z.J., Wang H., Jin Y.H., Wang X.L. (2023) Influence of band microstructure on carbide precipitation behavior and toughness of 1 GPa-grade ultra-heavy gauge low-alloy steel, International Journal of Minerals, Metallurgy and Materials 30, 1329–1337.

4. 柳志鹏,谢振家,罗登,周文浩,郭晖,尚成嘉 (2023). 中心偏析对FH40低温钢焊接组织性能的影响. 工程科学学报 45(08),1335-1341.

5. Xie, Z.J., Li, Q., Liu, Z.P., Zhou, W.H., Wang, X.L., Yu, Q., Xiao, D.H. and Shang, C.J. (2022) Enhanced ductility and toughness by tailoring heterogenous microstructure in an ultra-heavy gauge high strength steel with severe centerline segregation, Mater. Lett. 323, 132525.

6. Wang X.L., Huang A.R., Shang C.J. and Xie Z.J. (2022) Characterization of the cladding layer by laser cladding of 9Cr18Mo powder on 3Cr14 martensitic stainless steel and the impact of martensite obtained through post heat treatment on hardness, Mater. Today Comm., 32, 104057.

7. Xie, Z.J., Shang, C.J., Wang, X.L., Wang, X.M., Han, G. and Misra, R.D.K. (2020) Recent progress in third-generation low alloy steels developed under M3 microstructure control, Int. J. Miner. Metall. Mater., 27.

8. Wang, X.L., Wang, Z.Q., Huang, A.R., Wang, J.L., Li, X.C., Subramanian, S.V., Shang, C.J. and Xie, Z.J. (2020) Contribution of grain boundary misorientation to intragranular globular austenite reversion and resultant in grain refinement in a high-strength low-alloy steel, Mater. Charact.,169, 110634.

9. Han G., Hu B., Yu Y.S., Rong X.Q., Xie Z.J., Misra R.D.K., Wang X.M. and Shang C.J. (2020) Atomic-scale study on the mechanism of formation of reverted austenite and the behavior of Mo in a low carbon low alloy system, Mater. Charact., 163, 110269

10. Xie, Z.J., Langelier, B., Tsai, Y.T., Shang, C.J., Yang, J.R., Subramanian, S.V., Ma, X.P. and Wang, X.L. (2019) Characterization of nano-sized precipitation and dislocations and the correlation with mechanical properties of a low alloy TRIP-aided steel, Mater. Sci. Eng. A, 763, 138149.

11. Xie, Z.J., Han, G., Yu, Y.S., Shang, C.J. and Misra, R.D.K. (2019) The determining role of intercritical annealing condition on retained austenite and mechanical properties of a low carbon steel: Experimental and theoretical analysis, Mater. Charact., 153, 208-214.

12. Xie, Z.J., Shang, C.J., Wang, X.L., Ma, X.P., Subramanian, S.V. and Misra, R.D.K. (2018) Microstructure-property relationship in a low carbon Nb-B bearing ultra-high strength steel by direct-quenching and tempering, Mater. Sci. Eng. A, 727, 200-207.

13. Xie, Z.J., Han, G., Zhou, W.H., Wang, X.L., Shang, C.J. and Misra, R.D.K. (2018) A novel multi-step intercritical heat treatment induces multi-phase microstructure with ultra-low yield ratio and high ductility in advanced high-strength steel, Scr. Mater., 155, 164-168.

14. Xie Z.J., Shang C.J., Subramanian S.V., Ma X.P. and Misra R.D.K. (2017) Atom probe tomography and numerical study of austenite stabilization in a low carbon low alloy steel processed by two-step intercritical heat treatment, Scr. Mater., 137, 36-40


专       利

[1] 王学林,王智权,谢振家,尚成嘉,郭福建,袁胜福,刘文乐.焊缝金属中有效阻碍脆性裂纹扩展的显微组织定量化方法(CN114994108A,2022-09-02)

[2] 王学林,尚成嘉,谢振家,栗子林,郭福建,袁胜福,刘文乐,张瑞华,邱桥.一种提高激光熔覆刀刀刃硬度的热处理方(CN114250465B,2022-08-26)

[3] 谢振家,尚成嘉,王学敏,杨善武,郭晖,王学林,李秀程,王静靓. 一种低成本高强韧140ksi钢级无缝钢管及其制备方法(CN113862560B,2022-08-09)

[4] 刘文乐,郭福建,尚成嘉,谢振家,李秀程. 基于数字化图像处理的全自动连铸坯中心偏析的评级系统(CN110070543B,2021-06-15)

[5] 谢振家,姜明宏,尚成嘉,王学敏,王学林,杨善武,郭晖,涛雅,宋振东.一种460MPa级抗震耐火建筑H型钢及其制备方法(CN110241361A,2019-09-17)


科研项目

1. 高服役安全海洋能源用钢关键技术研究(校级纵向FRF-BD-22-02,2022.1.1-2024.11.31,直接经费109.09万元,参与,在研)

2. 新一代抗低温耐腐蚀高强韧贝氏体轨道钢(国家级纵向 2021YFB3703500-02,2021.12.1-2025.11.30,直接经费100万,任务负责人,在研)

3.超大型集装箱船用特厚止裂钢的开发(横向 2021-0618,2021.6.1-至今,直接经费100万,负责人,在研)

4. 高端刀剪用钢铁材料集成计算工程及其在新材料新技术研发中的应用(省部级纵向 2021B0707050002,2021.5.1-2024.4.30,直接经费125万,任务负责人,在研)

5. 管道环焊缝试样原子探针测试分析(横向 2021-0146,2021.3.9至今,直接经费18.6万元,负责人,在研)

6. 关键轧制和热处理工艺对高碳马氏体不锈钢碳化物调控的耦合作用机理及性能的影响规律研究(地市级纵向SDZX2021002,2021.1.1-2023.12.31,直接经费40万,负责人,在研)

7. 高强韧厚板强韧性及焊接物理冶金机理研究(横向 2023-1661,2023.12.11至今,直接经费60万元,负责人,在研)


学术兼职

1. 2021.12-今,《Metals》客座编辑;

2. 2022.1-今,《International Journal of Minerals, Metallurgy and Materials》青年编委;

3. 2022.1-今,《工程科学学报》青年编委