张一弛

张一弛，青年研究员，硕士生导师

个人简介：博士，中共党员。上海市浦江人才。2022年6月于英国纽卡斯尔大学获得博士学位，同年加入上海交通大学从事博士后研究工作，2026年1月加入东华大学机械工程学院，担任青年研究员。主持国家自然科学基金青年基金1项、中国博士后基金特别资助1项、省部级项目2项。作为核心骨干先后参与国家173重点项目、国际合作项目、国自然面上等。近5年第一/通讯作者发表学术论文十余篇，申请发明专利1项，软著2项。担任Ocean Engineering、Wind Energy、Marine Structures、International Journal of Impact Engineering等多个SCI期刊审稿人。

研究方向：金属/复合材料碰撞/冲击动力学、海洋漂浮式风电装备气动-水动-系泊-伺服-结构耦合动力学

科研项目

[1] 国家自然科学基金青年基金，船舶碰撞载荷下大型半潜式风机超大尺度细长柔性结构变形损伤机理研究，2026.01-2028.12，30万，主持。

[2] 上海市白玉兰人才计划浦江项目，风浪联合及船舶冲击载荷下浮式风机叶片结构多模式损伤评估方法，2023.10-2025.09，30万，主持

[3] 中国博士后基金特别资助项目，计及多场耦合效应的船舶-浮式风机碰撞动力学建模与结构，18万元，主持。

[4] 广东省基础与应用基础研究面上项目，面向浮式风机耦合动力特性及船舶碰撞随机不确定性的结构防护优化研究，30万元，2024.11-2027.10，主持。

[5] JKW-JCJQ重点基础项目，XXXXXXXXX载荷控制与损伤机理研究，2021.08-2026.07，参研

[6] JKW-JCJQ重点基础项目，XXXXXXXXXXXX失效机理及结构安全性研究，2020.11-2025.10，参研

[7] 国际能源署（IEA）牵头国际合作项目，Offshore Code Comparison, Collaboration, Continued, with Correlation and unCertainty （OC6），2019-2023, 参研

期刊论文

[1] 李艳超, 侯宏博, 张一弛, 薛鸿祥。碰撞载荷下计及流体-结构耦合效应的大型半潜式风机结构动力响应研究[J]. 振动与冲击, 2026 (9): 69-79

[2] Xu, J., Zhang, Y., Hou, H., Wetenhall, B. and Mao, M., 2025. Comparative fatigue crack analysis of yaw bearings in floating offshore wind turbines to turbulent wind. Ocean Engineering, 340, p.122374.

[3] 杜梦波, 张一弛, 袁昱超, 唐文勇. 楔形船艏斜撞场景下舷侧外板结构撕裂抗力解析预报方法研究[J]. 振动与冲击, 2025, 44 (24): 40-51.

[4] Zhang, Y., Yuan, Y., Zhou, J. and Tang, W., 2024. A new analytical model to evaluate ship side collisions with large indentation considering interaction effects between structural components. Marine Structures, 95, p.103596.  

[5] Zhang, Y., Zhou, J., Yuan, Y. and Tang, W., 2024. Numerical and analytical study of the stiffener effects on the structural resistance of a plate cut by a wedge. International Journal of Impact Engineering, 190, p.104957.  

[6] 张一弛, 周家有, 袁昱超, 唐文勇. 计及船首变形影响的舰船舷侧碰撞结构抗力解析预报方法研究[J]. 中国造船, 2024, 65(5).

[7] Zhou, J., Zhao, Y., Zhang, Y., Zhang, L., Yuan, Y. and Tang, W., 2023. An analytical method for evaluating the structural resistance of plate structures under in-plane impact load in ship-side collision scenarios. Ocean Engineering, 288, p.115961.

[8] Zong, S., Liu, K., Zhang, Y., Yan, X. and Wang, Y., 2023. The dynamic response of a floating wind turbine under collision load considering the coupling of wind-wave-mooring loads. Journal of Marine Science and Engineering, 11(9), p.1741.

[9] 周家有, 赵延杰, 张伦平, 张一弛, 袁昱超, 唐文勇. 楔形船艏舷侧撞击场景下甲板结构损伤预报解析方法研究[J]. 振动与冲击, 2023, 42 (23): 41-48+64.

[10] Zhang, Y. and Hu, Z., 2022. An aero-hydro coupled method for investigating ship collision against a floating offshore wind turbine. Marine Structures, 83, p.103177.  

[11] Zhang, Y., Hu, Z., Ng, C., Jia, C. and Jiang, Z., 2021. Dynamic responses analysis of a 5 MW spar-type floating wind turbine under accidental ship-impact scenario. Marine Structures, 75, p.102885.  

国际会议论文：

[1] Du, M., Zhang, Y., Yuan, Y., Tang, W. and Hu, Z., 2025. Numerical investigation on the anti-collision performance of fender for a spar-type floating offshore wind turbine. Trends in Collision and Grounding of Ships and Offshore Structures, pp.175-183.

[2] Zhang, Y., Li, Y., Zhao, Y., Yuan, Y. and Tang, W., 2024, November. Numerical investigation on modelling approaches influence on energy dissipation evaluation under accidental ship collision against a floating offshore wind turbine. In International Conference on Engineering Structures (pp. 1646-1656). Singapore: Springer Nature Singapore.

[3] Zhang, Y., Zhou, J., Yuan, Y. and Tang, W., 2024, June. An analytical solution for evaluating structural resistance of a stiffened plate under lateral impact with large indentation. In International Conference on Offshore Mechanics and Arctic Engineering (Vol. 87790, p. V002T02A096). American Society of Mechanical Engineers.

[4] Zhang, Y., Zhou, J., Yuan, Y., Tang, W. and Hu, Z., 2023. An analytical model to study the tearing behavior of a stiffened plate under oblique ship side collisions. In Advances in the Collision and Grounding of Ships and Offshore Structures (pp. 337-343). CRC Press.

[5] Zhang, Y. and Hu, Z., 2021. A nonlinear numerical simulation approach for the dynamic responses analysis of floating wind turbine under ship impact scenario. In Developments in the Analysis and Design of Marine Structures (pp. 278-286). CRC Press.

[6] Zhang, Y. and Hu, Z., 2021. Investigation on the performance of an OC3-Hywind spar-type floating wind turbine impact by an offshore service vessel. In Maritime Technology and Engineering 5 Volume 1 (pp. 537-544). CRC Press.

[7] Zhang, Y. and Hu, Z., 2019, June. Dynamic responses prediction for a spar-type offshore floating wind turbine under ship collision scenarios. In International Conference on Offshore Mechanics and Arctic Engineering (Vol. 58783, p. V003T02A009). American Society of Mechanical Engineers.

专利及软著

一种楔形船艏斜撞场景下舷侧结构抗力快速预报方法, CN202510977482.4 （发明专利）

海上风电塔筒振动多维度分析与状态评估软件（软著）

荣誉&兼职

2023上海市浦江人才计划

第七届全国舰艇抗冲击学术会议优秀论文

2022年船舶与海洋结构学术会议优秀论文

38^th ASME OMAE Outreach Scholarship

英国纽卡斯尔大学一等学位Pass with Distinction

担任Ocean Engineering、Wind Energy、Marine Structures、International Journal of Impact Engineering等多个SCI期刊审稿人。

联系方式

地址：上海市松江区人民北路2999号4号学院楼3075室，201620

邮箱：yc_zhang@dhu.edu.cn

Address：Room 3075, No.4 College Building, 2999 North Renmin Rd, Songjiang, Shanghai, P.R.C, 201620

E-mail：yc_zhang@dhu.edu.cn