姓名: | 李亦庄 |
办公地点: | RAL354 |
联系电话: | 024-83675581 |
邮箱: | liyz@ral.neu.edu.cn |
职称: | 教授 |
研究方向: | 金属结构材料的强韧化机理及微结构设计;塑性变形及本构理论;新型低密度高模量金属基复合材料的开发;晶体塑性有限元方法及多尺度力学模拟 |
通讯地址: | 辽宁省沈阳市和平区东北大学轧制技术及连轧自动化国家重点实验室 |
邮政编码: | 110819 |
个人简介:
李亦庄,东北大学教授、博士生导师。近年来紧扣“材料学与力学交叉融合”的创新研究范式,聚焦金属材料的塑性变形共性基础问题,在金属材料强韧化、极端环境材料设计等共性核心基础理论与技术方面开展研究工作。研究成果在Acta Materialia、International Journal of Plasticity和Journal of the Mechanics and Physics of Solids等领域顶刊发表。作为项目负责人承担国家级青年人才项目、十四五国家重点研发计划课题、国家自然科学基金面上项目等。
教育经历:
2014.9–2018.11,香港大学,机械工程系,博士
2016.9–2016.12,荷兰埃因霍温理工大学, 机械工程系, 访问学者
2012.9–2014.6,香港大学, 机械工程, 学士
2010.9–2014.6,上海交通大学, 机械工程及自动化, 学士
工作经历:
2022.08–至今,东北大学,轧制技术及连轧自动化国家重点实验室,教授
2018.12–2022.04,香港大学,机械工程系,博士后
教学情况:
《纳米技术》,本科通识选修类,24课时,主讲
《计算材料学》,本科专业方向类,24课时,主讲
《材料成形理论》,博士生课程,16课时,主讲
代表性科研项目:
国家级青年人才项目,主持
国家自然科学基金面上项目,基于陶瓷颗粒析出竞争机制的高模量钢界面调控及力学响应,主持
辽宁省应用基础研究计划,基于残余奥氏体组织特征调控的中锰钢动态力学性能研究,主持
国家重点研发计划课题,数据驱动的不锈钢研发-生产-应用技术,主持
科技部高端外国专家引进计划,数据驱动的多组元合金强塑性分析与优化设计,主持
代表性论文:
Y.Z. Li, S.L. Zhao, S.H. He, C.P. Huang, M. X. Huang*, Enhancing yield stress and uniform elongation in an ultrathin packaging steel via controlling dislocation density, International Journal of Plasticity, 2022, 155, 103334.
Y.Z. Li, Z.Y. Liang, M. X. Huang*, Strengthening contributions of dislocations and twins in warm-rolled TWIP steels, International Journal of Plasticity, 2022, 150, 103198.
Y.Z. Li, M. X. Huang*, A dislocation-based flow rule with succinct power-law form suitable for crystal plasticity finite element simulations, International Journal of Plasticity, 2021, 138, 102921.
Y.Z. Li, M.X. Huang*, TiB2-TiC reinforced martensitic steel fabricated by conventional solidification, Metallurgical and Materials Transactions A, 2021, 52, 2144-2148.
Y.Z. Li, M. Wang, M.X. Huang*, In-situ measurement of plastic strain in martensite matrix induced by austenite-to-martensite transformation, Materials Science and Engineering A, 2021, 811, 141061.
Y.Z. Li, Z.C. Luo, Z.Y. Liang, M.X. Huang*, Effect of carbon on strain-rate and temperature sensitivity of twinning-induced plasticity steels: Modeling and experiments, Acta Materialia, 2019, 165, 278-293.
Y.Z. Li, M.X. Huang*, Carbon-dislocation interaction-induced abnormal strain-rate sensitivity in twinning-induced plasticity steels, Metallurgical and Materials Transactions A, 2019, 50(6), 2570-2575.
Y.Z. Li, M.X. Huang*, Rationalizing the Grain Size Dependence of Strength and Strain-Rate Sensitivity of Nanocrystalline fcc Metals, Metallurgical and Materials Transactions A, 2019, 50(4), 1943-1948.
Y.Z. Li, M.X. Huang*, Revealing the interfacial plasticity and shear strength of a TiB2-strengthened high-modulus low-density steel, Journal of the Mechanics and Physics of Solids, 2018, 121: 313-327.
Y.Z. Li, Z.C. Luo, H.L. Yi, M.X. Huang*, Damage Mechanisms of a TiB2-Reinforced Steel Matrix Composite for Lightweight Automotive Application, Metallurgical and Materials Transactions E, 2016, 3, 203-208.
Y.Z. Li and M.X. Huang*, A Method to Calculate the Dislocation Density of a TWIP Steel Based on Neutron Diffraction and Synchrotron X-Ray Diffraction, Acta Metallurgica Sinica, 2020, 56 (4), 487-493.
Liu, R. D., Y. Z. Li*, L. Lin, C. P. Huang, Z. H. Cao, M. X. Huang*, Strain rate sensitivity of a 1.5 GPa nanotwinned steel, Journal of Iron and Steel Research International, 2021, 1-5.
Hu, J., Li, X., Meng, Q., Wang, L., Li, Y., & Xu, W. (2022). Tailoring retained austenite and mechanical property improvement in Al–Si–V containing medium Mn steel via direct intercritical rolling. Materials Science and Engineering: A, 855, 143904.
Chen, Ronghua, Bochuan Li, Yizhuang Li, Xiaogang Wang, Chao Jiang, and Mingxin Huang. Influences of particle fraction and characteristics on damage tolerance of TiB2-reinforced steel matrix composites, Materials Science and Engineering: A, 2021, 141736.
L.T. Liu, Y.Z. Li, K.P. Yu, M.Y. Zhu, H. Jiang, P. Yu, M.X. Huang*, A novel stainless steel with intensive silver nanoparticles showing superior antibacterial property, Materials Research Letters, 9, 6, 270-277.
Bochuan Li, Kang Xu, Ronghua Chen, Yizhuang Li, Xiaogang Wang, Chao Jiang*, M.X. Huang*, On the fatigue crack propagation mechanism of a TiB2-reinforced high-modulus steel, Composites Part B, 2020, 190, 107960.
Ronghua Chen, Bochuan Li, Yizhuang Li, Zhicheng Liu, Xiangyun Long, Hongliang Yi, Xiaogang Wang, Chao Jiang*, M.X. Huang*, Revealing the fatigue crack initiation mechanism of a TiB2-reinforced steel matrix composite, International Journal of Fatigue, 2020, 130, 105276.
Z.C. Luo, B.B. He, Y.Z. Li, M.X. Huang*, Growth Mechanism of Primary and Eutectic TiB2 Particles in a Hypereutectic Steel Matrix Composite, Metallurgical and Materials Transactions A, 2017, 48, 1981-1989.
Z.Y. Liang, Y.Z. Li, M.X. Huang*, The respective hardening contributions of dislocations and twins to the flow stress of a twinning-induced plasticity steel, Scripta Materialia, 2016, 112, 28-31.
Z. Wang, Y.Z. Li, B.B. He, M.X. Huang*, Research Progress on Second Phase Strengthening and Toughening of Advanced Steels, Materials China, 2019, 38(3).
Y.Z. Li, M. X. Huang*. Interfacial Strength Characterization in a High-Modulus Low-Density Steel-Based Fe-TiB2 Composite. Characterization of Minerals, Metals, and Materials 2017. Springer, Cham, 2017. 453-460. (Conference paper)