李凌霄,郑州大学副研究员,硕士生导师,2022年于燕山大学获得博士学位。香港中文大学、Adelaide大学访问学者。第13届上银优秀博士论文奖获得者,国家资助博士后研究人员,中国机械工程学会会员,中国材料学会会员。任《机械工程材料》《材料热处理学报》青年编委,Journal of Materials Processing Technology、International Journal of Hydrogen Energy、Metals、Thermal Science等著名SCI期刊审稿人。主要从事抗氢脆成形制造、抗疲劳制造,氢脆机理研究工作。主持国家自然科学基金、河南省青年科学基金、中国博士后基金面上项目、郑州大学科研启动经费项目以及横向课题等多项研究课题,参与多项国家自然科学基金重点项目、联合项目、面上项目。先后在Corrosion Science,JMPT,MSEA等著名期刊发表研究论文30余篇。
研究方向:面向临氢服役条件的金属结构材料成形制造技术;抗疲劳制造技术;氢脆机理研究;金属体系宏微观跨尺度模拟;金属材料多尺度表征;近终成型设备研发及工艺
通信地址:河南省郑州市科学大道100号郑州大学机械与动力工程学院316/中国香港特别行政区沙田区香港中文大学蒙民伟工程楼105
联系方式:lingxiaoli@zzu.edu.cn,lingxiaoli001@cuhk.edu,hk
欢迎同学们报考!每年招收硕士研究生1-2名,也欢迎有志从事基础研究的本科生联系~
近年来主持的科研项目:
[1]2025.1-至今,国家自然科学基金青年项目(52405432),30万
[1]2023-至今,国家博士后研究人员资助计划,24万元(在研)
[2]2023.1-2023.12,BCC结构钢在氢作用下的变形及失效机制研究,郑州大学科研启动经费项目,20万
[3]2024-至今,国家博士后面上项目,振动辅助齿轮抗氢脆热成形过程氢脆特征量时空演化规律研究,8万元(在研)
[4]2024-至今,国家博士后面上项目河南省配套项目,8万元(在研)
[5]2024-至今,河南省青年科学基金项目,核电锻件微幅振动辅助成形过程氢脆特征量时空演化机制研究,5万元(在研)
[6]2024.6-2024.10,郑州大学博士后科研启动经费项目:2万元(在研)
[7]2023.3-至今,X80管线钢的微观结构表征及建模,横向课题,2.1万(在研)
[8]2023.4-至今,钛铝合金的分子动力学模拟,横向课题,1.8万(在研)
近年来参与的科研项目:
[1]大锻件氢致损伤机理及其热成形过程宏细观跨尺度研究,国家自然科学基金面上项目(51975510),60万元
[2]双辊薄带微幅振动铸轧新技术基础研究,国家自然科学基金面上项目(51374184),62万元
[3]宽幅铜/铝层状复合材料半熔态连续铸轧机理及界面控制,国家自然科学基金重点项目(U1604251),254万元
[4]典型铝基层状复合板带固—液振动铸轧机理与界面性能控制应用基础研究,河北省自然科学基金重点项目(E2017203043),282万
[5] 河南省重大科技专项,关键零部件抗疲劳数字制造
近年来代表性论文及专利:
代表性研究论文(*为通信作者):
1、Guang Yang, Zeyu Guo, Zheng Li, Lunsu Liang, Yajing Zhang, Hao Guo, Can Wang, Kai Xu, Lingxiao Li*, Effect of hydrogen on low-cycle fatigue properties and the mechanism of hysteresis energy method lifetime prediction of X80 pipeline steel, Corrosion Science 243 (2025) 112599. https://doi.org/10.1016/j.corsci.2024.112599. (中科院一区,TOP,Q1,IF:7.012,SCI/EI 收录)
2、Gang Wang, Yang Tong, Lunsu Liang, Ming Zhang, Minghao Zhao, Lingxiao Li*, Indentation deformation mechanism of combined-strengthened modified layer in low-alloy steel under the influence of hydrogen, Corrosion Science 242 (2025) 112579. https://doi.org/10.1016/j.corsci.2024.112579. (中科院一区,TOP,Q1,IF:7.012,SCI/EI 收录)
3、Lingxiao Li, Lunsu Liang, Yuhao Wang , Jiyan Liu, Minghan Sun, Pei Zhao, Junhua Hu, Guangtao Xu, Gang Wang*, Kai Xu*, In situ study on the orientation and strain-rate correlation mechanism of hydrogen embrittlement behavior of ferrite under shear stress, Journal of Materials Research and Technology 33 (2024) 9674-9692. https://doi.org/10.1016/j.jmrt.2024.11.271. (中科院一区,TOP,Q1,IF:5.551,SCI/EI 收录)
4、Kai Xu, Ying-long Ma, Shu-yu Huang, Hao-Ran Zhang, Gang Wang, Gui-ying Qiao*, Fu-ren Xiao*, Ling-xiao Li*, Effect of hydrogen on microstructure evolution and properties of high-strain pipeline steel under cyclic strain loading, Corrosion Science 234 (2024) 112148. https://doi.org/10.1016/j.corsci.2024.112148. (中科院一区,TOP,Q1,IF:7.012,SCI/EI 收录)
5、Guangtao Xu, Di Wang, Gang Wang, Minghao Zhao, Shuyu Huang, Lingxiao Li*, Dynamic fracture toughness and crack propagation mechanism of a heterogeneous heterostructured material under combined strengthening mechanisms, Engineering Fracture Mechanics 310 (2024) 110508. https://doi.org/10.1016/j.engfracmech.2024.110508. (中科院一区,TOP,Q1,IF:4.7,SCI/EI 收录)
6、Lingxiao Li, Zeyu Guo, Yinglong Ma, Lei Tang, Kai Xu*, Multi-scale hydrogen embrittlement prediction model of low alloy steel based on multi-dimensional defect reconstruction, Engineering Fracture Mechanics 313 (2025) 110644. https://doi.org/10.1016/j.engfracmech.2024.110644. (中科院一区,TOP,Q1,IF:4.7,SCI/EI 收录)
7、Lingxiao Li, Yuhao Wang, W.J. Wang, J.Y. Liu, Z.Q. Xu, F.S. Du*, Mechanism and prediction of hydrogen embrittlement based on complex phase structure of chromium alloy steel, Materials Science and Engineering A 822 (2021) 141546. https://doi.org/10.1016/j.msea.2021.141546. (中科院一区,TOP,Q1,IF:5.021,SCI/EI 收录)
8、Lingxiao Li, Yuhao Wang, Jiyan Liu, Xiaohui Chen, Pei Zhao, Minghan Sun, Kai Xu, Guangtao Xu, Fengshan Du, Hydrogen transfer behavior and hydrogen affected zone formation of low alloy steel during thermoplastic deformation, Journal of Materials Processing Technology 316 (2023) 117958. https://doi.org/10.1016/j.jmatprotec.2023.117958. (中科院一区,TOP,Q1,IF:5.551,SCI/EI 收录)
9、Lingxiao Li, Qiuyue Du, Yuhao Wang, Kai Xu, Minghan Sun, Jingna Sun, Fengshan Du, Hydrogen behavior during high-temperature plastic deformation in low-alloy steels, Journal of Materials Processing Technology 302 (2022) 117487. https://doi.org/10.1016/j.jmatprotec.2021.117487. (中科院一区,TOP,Q1,IF:5.551,SCI/EI 收录)
10、Lingxiao Li, Minghan Sun, M.C. Fan, T.S. Yang, F.S. Du, New Rapid Prototyping Technology for the Prevention of Hydrogen Embrittlement of Metal Strips. Corrosion Science 164 (2020) 108341. https://doi.org/10.1016/j.corsci.2019.108341. (中科院一区,TOP,Q1,IF:7.012,SCI/EI 收录)
11、He Ren, Lingxiao Li, et.al.A CrMnFeCoNi high entropy alloy boosting oxygen evolution/reduction reactions and zinc-air battery performance. Energy Storage Materials, 58, April 2023, 287 - 298.(中科院一区,TOP,Q1,IF:20.83,SCI/EI 收录)
12、Haidong Sun, Lingxiao Li, et.al. The morphology and crystallography of lath martensite via high pressure martensitic transformation in Fe-0.45 wt.% C steel[J]. Acta Materialia, 2025, 284 120624.(中科院一区,TOP,Q1,IF:8.3,SCI/EI 收录)
13、Can Wang, Lingxiao Li*, et al. Estimation of fretting fatigue lifetime in heterogeneous material based on microstructure characterization and multi-scale homogenization[J]. Theoretical and Applied Fracture Mechanics, 2023, 126 103949.(中科院二区,Q1,IF:5,SCI/EI 收录)
14、Lingxiao Li, Yuhao Wang, er.al. First principles study on interface optimization mechanism of Cu-Al composite 1 plate and strip by vibration cast-rolling technology. 2020, 1189-1201. Composite Interfaces. (中科院三区,Q2,IF:2.32,SCI/EI 收录)
15、Lingxiao Li, Qiuyue Du, et.al. Study on the mechanism of strengthening the bonding strength of Cu/Al composite strip by cross shear behaviour from vibration cast-rolling process, International Journal of Advanced Manufacturing Technology, 2022. (中科院三区,Q2,IF:2.9,SCI/EI 收录)
16、Lingxiao Li, Jiyan Liu, et.al. Study on effect of microstructure gradient caused by heat gradient on hydrogen embrittlement sensitivity of heavy forgings, Metals, 2022.(中科院三区,Q2,IF:2.6,SCI/EI收录)
17、Gang Wang, Mian Wang, Lingxiao Li*, et al. Study on the hydrogen embrittlement behaviour of ultrasonic surface rolling gradient structural materials under alternating stress[J]. Materials Science and Engineering: A, 2025, 929, 148131.
18、Qiao G Y , Huang S Y , Liu Y G , Lingxiao Li*, et al.Molecular dynamics of hydrogen-induced BCC/FCC phase transition and cracking in plastic deformation of X80 duplex pipeline steel[J].Engineering Failure Analysis, 2025, 170(000). DOI:10.1016/j.engfailanal.2025.109324.
19、徐广涛,李灿,路留成,张悦,王刚,李凌霄*,18CrNiMo7-6 合金钢表面变质层准静态本构参数确定,机械工程学报,2025,6.
20、Lingxiao Li, Yuhao Wang, Jiyan Liu, Xiaohui Chen, Pei Zhao, Minghan Sun, Kai Xu, Guangtao Xu, Fengshan Du,
Hydrogen transfer behavior and hydrogen affected zone formation of low alloy steel during thermoplastic deformation,
Journal of Materials Processing Technology, Volume 316, 2023, 117958.
21、Sun M., Nie X., Chen Z., Liang L., Guo L., Wang M., Zhao C., Li L*. Improved low-stress thermoplastic forming of TiAl alloys via dislocation behavior under mechanical vibration, Journal of Alloys and Compounds, 1022, 180030.
22、王刚,张明,佟阳,厉灿,陈增涛,李凌霄*,高应变率下氢对18CrNiMo7-6合金钢力学性能的影响,钢铁,(已录用)
23、Yuhao Wang, Lingxiao Li, et.al. The Effect of Symmetrically Tilt Grain Boundary of Aluminum on Hydrogen Diffusion[J]. Metals, 2022, 12 (2): 345.(中科院三区,Q2,IF:2.6,SCI/EI收录)
24、 孙明翰,李凌霄,范美辰,郭仕鹏,杜凤山,振动铸轧细晶对板带氢脆敏感性的影响机理研究. 中国机械工程, 2019, 30(24): 2934-2938,2952.(IF:2.804,EI 收录)
25、王文基, 王宇浩, 王一帆, 李凌霄, 于凤琴, 杜凤山,钛铝振动铸轧复合成形改善界面性能实验研究。塑性工程学报,2021。(中文核心)
26、Minghan Sun, Lingxiao Li, et.al. Thermal conductivity of aluminum foam based on 3-D Stochastic sphere model . HEAT TRANSFER, 2019. 49(2).(Q1,IF:2.8,EI收录)
27、Jinsheng Li, Lingxiao Li, et al. Reducing Mechanical Anisotropy in Dual-Phase Mg-9Li-1Zn Alloy by Control of Single-Pass Reduction during Asymmetric Rolling[J]. Journal of Materials Engineering and Performance, 2024, 33 (21): 12010-12019.(中科院四区,Q2,IF:2.2,SCI/EI 收录)
28、Lingxiao Li, Tingsong Yang, Zhilei Liu, Yanfeng Feng, Xinjun Zhang, Miao Jin, Lei Chen, Kun Yang, Shuo Hao*. Study on the interlayer and interphase multiple coordination deformation mechanism of Fe-20.4Cr-4.7Mn-0.27N duplex stainless steel with gradient heterostructure[J]. Applied Surface Science, Volume 701, 30 August 2025, 163309
29、李凌霄,张新军,牛佳慧,郝硕,刘治华,双相梯度不锈钢应力配分及协调变形机制研究,钢铁,(已录用)
30、Zhenwei Chen, Minghan Sun*, Haolong Liu, Xiong Nie, Mingjie Wang, Chao Zhao, Lingxiao Li, Jie Pan, Ning Li, Vibration-enhanced hot workability of TiAl alloy induced by the motion of 1/2<112] superdislocations,Acta Materialia, 2025 .(中科院一区,TOP,Q1,IF:8.3,SCI/EI 收录)
发明专利:
1、杜凤山, 李凌霄等。高通量氢脆模拟实验平台。国家发明专利,已受权,专利号:202111627082.9
2、徐凯,李凌霄等。一种电场辅助大型锻件的锻后热处理扩氢方法。国家发明专利,已受理
