基本信息
姓名:韩泉峰 出生年月:1992年8月
职称:特设副研究员 邮箱:quanfenghan@whut.edu.cn
研究方向:纳晶金属材料强度尺寸效应与强韧化,金属材料氢脆失效宏微观机理与多尺度建模
教育背景
2018年9月~2023年1月 北京大学 固体力学 博士
2015年9月~2018年6月 大连理工大学 化工过程机械 硕士
2011年9月~2015年6月 大连理工大学 过程装备与控制工程 学士
工作经历
2024年2月~至今 武汉理工大学 汽车工程学院
2023年2月~2024年1月 比亚迪汽车工业有限公司 汽车工程研究院
主持科研项目
纳晶金属的织构调控强韧化机理及设计策略研究(国家自然科学基金青年科学基金项目,2025年1月~2027年12月)
基于三维编织工艺的新能源汽车车身复杂碳纤维构件整体成形技术研究(湖北省自然科学基金联合基金项目,2025年3月~2027年2月)
耦合真实气体状态方程的含高内压孔洞金属本构建模及材料力学行为研究(武汉理工大学新教师自主创新基金,2025年3月~2025年12月)
织构强度与类型主导的纳晶铜强韧化研究(武汉理工大学自主创新基金自由探索青年专项,2025年3月~2025年12月)
学术成果
Q. Han, J. Li, H. Wang, Y. Chen, X. Yi, L. Hua, Enhancing ductility in metals via highly pressurized voids: Implications for hydrogen embrittlement in copper through crystal plasticity modeling with real gas behavior.International Journal of Plasticity, under review after revision.
L. Huang, H. Wan, Q. Han, J. Wang, and X. Yi, Mitigating surface notches for enhanced fatigue performance of metallic gyroid structures via contour scanning.International Journal of Mechanical Sciences286, 109913 (2025).
J. Li, Q. Han (Co-first Author), and X. Yi, Strength–ductility synergy in Mg-Gd-Y-Zr alloys via texture engineering in bi-directional forging. Journal of Magnesium and Alloys12, 4709–4721 (2024).
Q. Han, J. Li, and X. Yi, Overcoming strength–ductility trade-off of nanocrystalline metallic materials by engineering grain boundary, texture, and gradient microstructure. Journal of the Mechanics and Physics of Solids173, 105200 (2023).
Q. Hanand X. Yi, High pressure-induced elimination of grain size softening in nanocrystalline metals: Grain boundary strengthening overwhelming reduction of intragranular dislocation storage ability. International Journal of Plasticity153, 103261 (2022).
Q. Hanand X. Yi, A unified mechanistic model for Hall–Petch and inverse Hall–Petch relations of nanocrystalline metals based on intragranular dislocation storage. Journal of the Mechanics and Physics of Solids154, 104530 (2021).
Z. Wang, Q. Han, D. H. Nash, H. Fan, and L. Xia, Thermal buckling of cylindrical shell with temperature-dependent material properties: Conventional theoretical solution and new numerical method. Mechanics Research Communications92, 74–80 (2018).
Z. Wang, Q. Han, D. H. Nash, P. Liu, and D. Hu, Investigation of imperfect effect on thermal buckling of cylindrical shell with FGM coating. European Journal of Mechanics A/Solids69, 221–230 (2018).
Q. Han, Z. Wang, D. H. Nash, and P. Liu, Thermal buckling analysis of cylindrical shell with functionally graded material coating.Composite Structures, 181, 171–182 (2017).
Z. Wang, Q. Han, D. Nash, and P. Liu, Investigation on inconsistency of theoretical solution of thermal buckling critical temperature rise for cylindrical shell. Thin-walled Structures, 119, 438–446 (2017).
Q. Han, Z. Wang, C. Y. Tang, L. Chen, C. P. Tsui, and W. C. Law, Hyper elastic modeling and mechanical behavior investigation of porous poly-D-L-lactide/nano-hydroxyapatite scaffold material. Journal of the Mechanical Behavior of Biomedical Materials, 71, 262–270 (2017).
