姓 名:赵吕
职 称:博士,副教授
联系电话:027-87543538
电子邮箱:lvzhao@hust.edu.cn
通讯地址:163am银河线路163am银河线路,邮编:430074
一、个人简历
赵吕,副教授,博士生导师。2012年毕业于西北工业大学,获学士学位;2013年和2016年于法国里昂大学分别获得硕士和博士学位;2017年1月至2019年5月于比利时鲁汶大学从事博士后研究;2019年6月入职163am银河线路工程力学系。主要从事高速裂纹扩展自失稳以及增材制造金属多尺度构效关联等科学问题的研究。截至目前以第一/通讯作者在Nature Commun.、PNAS、J. Mech. Phys. Solids、Compos. A、Addit. Manuf.、Scripta Mater.、Int. J. Solids Struct.、Mater. Sci. Eng. A等期刊发表学术论文十六篇。
二、教学工作
承担本科生《材料力学》课程和研究生《材料强度学》的教学。
三、科研工作
主要研究方向有:
1. 激光增材制造多尺度构效关联;
2. 动态裂纹扩展稳定性;
3. 金属基复合材料增韧。
四、科研项目
1. 增材制造铝合金各向异性行为及其机理的多尺度研究,国家自然科学基金面上项目,2023-2026,主持;
2. 动态裂纹特殊失稳模式-前缘波的实验验证及其物理属性表征,国家自然科学基金青年项目,2021-2023,主持;
3. 轻质合金自愈合,ERC Starting Grant创新课题(欧洲研究委员会资助),2017-2022,参与。
五、代表性论文
[1] L. Zhao*, D. Bardel, A. Maynadier, D. Nelias*. Velocity correlated crack front and surface marks in single crystalline silicon. Nature Communications 9 (2018) 1298.
[2] M. Wang, M. Fourmeau, L. Zhao*, F. Legrand, D. Nelias*, Self-emitted surface corrugations in dynamic fracture of silicon single crystal. Proceedings of the National Academy of Sciences of the United States of America, 117 (2020) 16872-16879.
[3] L. Zhao*, L. Ding, J. Soete, H. Idrissi, G. Kerchhofs, A. Simar. Fostering crack deviation via local internal stresses in Al/NiTi composites and its correlation with fracture toughness. Composites Part A 126 (2019) 105617.
[4] L. Zhao, D. Bardel, A. Maynadier, D. Nelias*. Crack initiation behavior in single crystalline silicon. Scripta Materialia 130 (2017) 83–86.
[5] M. Wang, L. Zhao*, M. Fourmeau, D. Nelias*. Crack plane deflection and shear wave effects in the dynamic fracture of silicon single crystal. Journal of the Mechanics and Physics of Solids 122 (2019) 472–488.
[6] L. Zhao, L. Song, J.G. Santos Macías, Y. Zhu, M. Huang, A. Simar, Z. Li*, Review on the correlation between microstructure and mechanical performance for laser powder bed fusion AlSi10Mg. Additive Manufacturing 56 (2022) 102914.
[7] L. Zhao, A. Maynadier, D. Nelias*. Stiffness and fracture analysis of photovoltaic grade silicon plates. International Journal of Solids and Structures 97–98 (2016) 355–369.
[8] L. Zhao*, J.G. Santos Macías, A. Dolimont, A. Simar, E. Rivière-Lorphèvre. Comparison of residual stresses obtained by the crack compliance method for parts produced by different metal additive manufacturing techniques and after friction stir processing. Additive Manufacturing 36 (2020) 101499.
[9] L. Zhao*, J. G. Santos Macías, L. Ding, H. Idrissi, A. Simar. Damage mechanisms in selective laser melted AlSi10Mg under as built and different post-treatment conditions. Materials Science and Engineering: A 764 (2019) 138210.
[10] L. Zhao*, J.G. Santos Macías, T. Douillard, Z. Li, A. Simar. Unveiling damage sites and fracture path in laser powder bed fusion AlSi10Mg: Comparison between horizontal and vertical loading directions. Materials Science and Engineering: A 807 (2021) 140845.
[11] L. Zhao*, M. Wang, A. Maynadier, D. Nelias*. Disturbance and recovery in high speed (110) cleavage in single crystalline silicon. Journal of the European Ceramic Society 38 (2018) 1038–1045.
[12] L. Zhao, D. Nelias*, D. Bardel, A. Maynadier, P. Chaudet, B. Marie. On the fracture of multi-crystalline silicon wafer. Journal of Physics D: Applied Physics 49 (2016) 475601.
[13] L. Zhao*, D. Nelias*, D. Bardel, M.Wang, B. Marie. Sub-grain induced crack deviation in multi-crystalline silicon. Journal of Applied Physics 121 (2017) 235105.
[14] L. Zhao*, M. Wang, L. Ding, B. Marie, Z. Li, Y. Zhu, M. Huang, D. Nelias. Examination of crack path in silicon multi-crystals, Engineering Fracture Mechanics 273 (2022) 108735.
[15] N. Netto, L. Zhao*, J. Soete, G. Pyka, A. Simar. Manufacturing high strength aluminum matrix composites by friction stir processing: An innovative approach. Journal of Materials Processing Technology 283 (2020) 116722.
[16] L. Song, L. Zhao*, L. Ding, Y. Zhu, M. Huang, A. Simar, Z. Li. Microstructure and loading direction dependent hardening and damage behavior of laser powder bed fusion AlSi10Mg. Materials Science and Engineering: A 832 (2022) 142484.
欢迎有力学、机械、物理背景的学生报考研究生
欢迎力学青年学者加入本团队开展博士后工作(团队氛围融洽,待遇优厚)
