副教授(副研究员)-新材料技术研究院2024

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副教授(副研究员)

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熊希临

姓名：熊希临

所在系所：材料失效与控制研究所

职称：副研究员

通信地址：北京市海淀区学院路30号北京科技大学新材料技术研究院

邮编：100083

办公地点：腐蚀楼413

办公电话：010-62332345

邮箱： xlxiong@ustb.edu.cn

个人简介

熊希临，1988年出生，工学博士，副研究员。2011年获得北京科技大学材料科学与工程专业学士学位，2018年于同校获该专业博士学位，2018至2020年在北京科技大学计算机与通信工程学院从事博士后研究，后入职新材料技术研究院。
研究内容面向国家金属结构材料服役安全需求，长期致力于抗氢脆高强钢设计、金属材料腐蚀与防护，数据驱动的材料设计及寿命预测等方面研究。以第一作者/通讯作者在Corrosion Science, Scripta Materialia，Materials Science and Engineering: A， Electrochimica Acta，Journal of Materials Research and Technology等Top期刊发表论文30余篇，近5年第一/通讯作者SCI/EI论文12篇。
主持国家自然科学基金青年基金（51901017），中央高校基本科研业务费项目（FRF-TP-20-099A1），国家重点研发计划子任务2项（2021YFB3702200，2022YFB3709000），国家新材料生产应用示范平台项目子任务（TC210H022）。主持及参与企业横向项目4项。
目前已联合培养硕士研究生6名，均获得各类奖学金，就职于科研院所、头部企业。欢迎具有金属材料、数学物理、计算机等背景的同学加入团队，一起发展进步。

研究方向

1、抗氢脆高强钢设计及高通量表征
2、金属材料腐蚀及防护
3、数据驱动的新材料设计
4、结构材料环境断裂及失效分析

科研业绩

代表论文（*通讯作者）

[1] X. Xiong*, J. Yang, C. Shang, H. Wu, R. Shi, Z. Ma, Y. Su*, High-throughput evaluation of alloying effect on hydrogen diffusion of ultra-high strength steel, Scripta Materialia 266 (2025) 116791.

[2] X. Xiong*, J. Yang, T. Chen, Y. Su*, Influence of fatigue on oxidation of 9Cr3W3Co turbine rotor steel at 660 °C, Materials Characterization 223 (2025) 114987.

[3] X. Xiong*, T. Chen, H. Wu, C. Shang, R. Shi, Z. Wang, Y. Su*, High-throughput evaluation of Mo effect on hydrogen embrittlement behavior of ultra-high strength steel, Journal of Materials Research and Technology 37 (2025) 1762-1770.

[4] X. Xiong*, N. Zhang, J.J. Yang, T.Q. Chen, T. Niu, Machine Learning-Assisted Prediction of Corrosion Behavior of 7XXX Aluminum Alloys, Metals 14(4) (2024) 401.

[5] X. Xiong*, J.J. Yang, T.Q. Chen, T. Niu, A highly efficient method for characterizing the kinetics of hydrogen evolution reaction, Anti-Corrosion Methods and Materials 71(6) (2024) 831-837.

[6] X. Xiong*, H. Yang, N. Zhang, T. Niu, Combined effect of cathodic potential and calcareous deposits on hydrogen evolution and permeation in Q460 steel, International Journal of Hydrogen Energy 79 (2024) 1227-1236.

[7] X. Xiong*, H. Yang, T. Chen, N. Zhang, T. Niu, Influence of Calcareous Deposits on Hydrogen Embrittlement Susceptibility of Q460 Steel, Materials 17(5) (2024) 1110.

[8] X. Xiong, H.X. Ma, L.N. Zhang, K.K. Song, Y. Yan, P. Qian, Y.J. Su*, The hydrogen-resistant surface of steels designed by alloy elements doping: First-principles calculations, Computational Materials Science 216 (2023) 111854.

[9] X. Xiong*, N. Zhang, T. Niu, Q. Wu, An electrochemical method for characterizing the structure of double-layer capacity, Anti-Corrosion Methods and Materials 70(6) (2023) 542-546.

[10] X. Xiong, K. Song, J. Li, Y. Su*, Effect of Mo Content on Hydrogen Evolution Reaction of 1400 MPa-Grade High-Strength Bolt Steel, Materials 16(3) (2023) 1020.

[11] X. Xiong, J. He, H. Zhi, S. Antonov, C. Zhang, Y. Zhong, Y. Su*, Optimizing mechanical properties of 15Cr supermartensitic stainless steel by enhanced stability of retained austenite, Materials Science and Engineering: A 853 (2022) 143732.

[12] X. Xiong, X. Ban, Y. Yan, Y. Su*, Hydrostatic pressure effect on double layer capacity of iron, Journal of Electroanalytical Chemistry 871 (2020) 114306.

[14] X. Xiong, Y. Xiang, J.X. Li, Y.J. Su*, Q.J. Zhou, A.A. Volinsky, Hydrostatic pressure effects on hydrogen entry into A514 steel with cathodic deposits, Electrochimica Acta 283 (2018) 1534-1542.

[15] X. Xiong, Q.J. Zhou, J.X. Li, A.A. Volinsky, Y.J. Su*, Cathodic over-potential and hydrogen partial pressure coupling in hydrogen evolution reaction of marine steel under hydrostatic pressure, Electrochimica Acta 247 (2017) 1019-1029.

[16] X. Xiong, H.X. Ma, X. Tao, J.X. Li, Y.J. Su*, Q.J. Zhou, A.A. Volinsky, Hydrostatic pressure effects on the kinetic parameters of hydrogen evolution and permeation in Armco iron, Electrochimica Acta 255 (2017) 230-238.

[17] X. Xiong, X. Tao, Q.J. Zhou, J.X. Li, A.A. Volinsky, Y.J. Su*, Hydrostatic pressure effects on hydrogen permeation in A514 steel during galvanostatic hydrogen charging, Corrosion Science 112 (2016) 86-93.

[18] 牛瞳, 张娜, 熊希临*, 基于原位观测及机器学习的7050铝合金腐蚀行为表征, 物理测试 (001) (2024) 042.

[19] Z. Ma, X. Xiong, L. Chen, Y. Su, Quantitative calibration of the relationship between Volta potential measured by scanning Kelvin probe force microscope (SKPFM) and hydrogen concentration, Electrochimica Acta 366 (2021) 137422.

[20] L. Chen, X. Xiong, X. Tao, Y. Su, L. Qiao, Effect of dislocation cell walls on hydrogen adsorption, hydrogen trapping and hydrogen embrittlement resistance, Corrosion Science 166 (2020) 108428.

专利：

[1] 熊希临；杨静静；吴宏辉；石荣建；董恒；陈通前；基于扩散多元节及SKPFM测量氢扩散系数的方法，2024-05-07，中国，CN202410172552.4 授权