1.个人简介
韩永生,男,1995年生,汉族,中国共产党党员,讲师,工学博士,硕士研究生导师。
2023.04--至今,西安科技大学理学院力学系,讲师,硕士研究生导师;
2020.03--2023.04,西北工业大学,力学,工学博士(导师:徐斌教授);
2017.08--2020.03,西北工业大学,工程力学,工学硕士(导师:徐斌教授);
2013.09--2017.07,河南理工大学,工程力学,工学学士(导师:王利副教授)。
2.研究方向
主要研究方向为:面向制造的结构优化设计、非线性结构优化设计、多功能复合材料与结构拓扑一体化设计、结构高性能分析计算等。热忱欢迎具有力学、数学、机械、土木等背景的学生报考。
邮箱地址:yongsheng_han@xust.edu.cn
3.科研项目
陕西省教育厅专项科研计划项目,24JK0553,面向增材制造的非线性结构强度拓扑优化设计方法研究,2025.01/2026.12,2万,主持。
陕西省自然科学基金一般项目(青年),2024JC-YBQN-0040,融入制造约束的结构强度拓扑优化方法研究,2024.01/2025.12,5万,主持。
西安科技大学科研启动经费,2023.04/2028.04,30万,主持。
西北工业大学博士学位论文创新基金(重点项目),CX2021014,非线性结构强度拓扑优化设计方法研究,2021.01/2022.12,6万,主持。
西北工业大学研究生创意创新种子基金,ZZ2018099,融入减材制造约束的材料与结构一体化拓扑优化设计,2018.01/2018.12,1万,主持。
国家自然科学基金(面上项目),11872311,基于材料-设计-制造融合的多相材料结构轻质化拓扑优化方法研究,2019.01/2022.12,63万,骨干成员。
国家自然科学基金(面上项目),11372249,具有吸波和承载多场耦合功能的结构与周期微材料协同优化方法研究,2014.01/2017.12,80万,参与。
陕西省自然科学基金一般项目(面上项目),2020JM-085,基于电磁物理特征的结构可制造性拓扑优化方法研究,2020.01/2021.12,5万,参与。
中国飞行试验研究院,某机型整机振动模态试验,2020.10/2021.06,95万,骨干成员。
4.代表性论文
[1]Yongsheng Han, Bin Xu, Zunyi Duan, Xiaodong Huang. Stress-based bi-directional evolutionary structural topology optimization considering nonlinear continuum damage. Computer Methods in Applied Mechanics and Engineering, 2022, 396: 115086.
[2]Yongsheng Han, Bin Xu, Zunyi Duan, Xiaodong Huang. Stress-based multi-material structural topology optimization considering graded interfaces. Computer Methods in Applied Mechanics and Engineering, 2022, 391: 114602.
[3]Yongsheng Han, Bin Xu, Qian Wang, Yuanhao Liu, Zunyi Duan. Topology optimization of material nonlinear continuum structures under stress constraints. Computer Methods in Applied Mechanics and Engineering, 2021, 378: 113731.
[4]Yongsheng Han, Bin Xu, Zunyi Duan, Xiaodong Huang. Stress-based topology optimization of continuum structures for the elastic contact problems with friction. Structural and Multidisciplinary Optimization, 2022, 65(2): 54.
[5]Yongsheng Han, Bin Xu, Zunyi Duan, Xiaodong Huang. Controlling the maximum stress in structural stiffness topology optimization of geometrical and material nonlinear structures. Structural and Multidisciplinary Optimization, 2021, 64(6): 3971-3998.
[6]Yongsheng Han, Bin Xu, Yuanhao Liu. An efficient 137-line Matlab code for geometrically nonlinear topology optimization using bi-directional evolutionary structural optimization method. Structural and Multidisciplinary Optimization, 2021, 63(5): 2571-2588.
[7]Yongsheng Han, Bin Xu, Qian Wang, Yuanhao Liu. Bi-directional evolutionary topology optimization of continuum structures subjected to inertial loads. Advances in Engineering Software, 2021, 155: 102834.
[8]Yongsheng Han, Bin Xu, Lei Zhao, Yi Min Xie. Topology optimization of continuum structures under hybrid additive-subtractive manufacturing constraints. Structural and Multidisciplinary Optimization, 2019, 60(6): 2571-2595.
[9]Bin Xu, Yongsheng Han, Lei Zhao. Bi-directional evolutionary topology optimization of geometrically nonlinear continuum structures with stress constraints. Applied Mathematical Modelling, 2020, 80: 771-791.
[10]Bin Xu, Yongsheng Han, Lei Zhao. Bi-directional evolutionary stress-based topology optimization of material nonlinear structures. Structural and Multidisciplinary Optimization, 2021, 63(3): 1287-1305.
[11]Lei Zhao, Bin Xu, Yongsheng Han, Jianhua Rong. Concurrent design of composite macrostructure and cellular microstructure with respect to dynamic stress response under random excitations. Composite Structures, 2021, 257: 113123.
[12]Lei Zhao, Bin Xu, Yongsheng Han, Jingdan Xue, Jianhua Rong. Structural topological optimization with dynamic fatigue constraints subject to dynamic random loads. Engineering Structures, 2020, 205: 110089.
[13]Lei Zhao, Bin Xu, Yongsheng Han, Jianhua Rong. Continuum structural topological optimization with dynamic stress response constraints. Advances in Engineering Software, 2020,148:102834.
[14]Lei Zhao, Bin Xu, Yongsheng Han, Yi Min Xie. Topology optimization of dynamic stress response reliability of continuum structures involving multi-phase materials. Structural and Multidisciplinary Optimization, 2019, 59(3): 851-876.
