张 威

E-mail：zhang_wei@njtech.edu.cn

职 位：副教授、硕士生导师

职 务：机械教师第一党支部书记、过程装备与控制工程系副主任

地 址：机械学院崇德楼E楼303

v工作及教育经历：

2022年07月至今，南京工业大学，副教授。

2021年10月-2022年06月，南京工业大学，特聘副教授。

2019年12月-2021年09月，南京工业大学，博士后。

2019年01月-2020年01月，University of Strathclyde，机械与航空工程，国家公派联合培养。

2014年09月-2019年12月，南京工业大学，化工过程机械(硕博连读)，工学博士。

v研究方向：

致力于承压结构完整性与可靠性研究，包括：

1. 单/多轴蠕变-疲劳、热机疲劳多尺度损伤

2. 极端环境下的疲劳裂纹扩展行为与预测

3. 弹（粘）塑性本构理论/晶体塑性/机器学习/可靠性分析方法

4. 压力容器分析设计方法（SAD）

v科研项目：

1. 国家自然科学基金面上项目，2026.01-2029.12，主持

2. 国防科工局基础产品创新科研项目研究任务，2024.09-2026.12，主持

3. 国家自然科学基金青年科学基金项目，2020.01-2023.12，主持

4. 中国博士后科学基金面上项目，2021.06-2021.12，主持

5. 江苏省博士后科研资助计划项目，2020.01-2021.09，主持

6. 企业产学研项目20余项，2021.10至今，主持

v获奖情况：

1. 2025年南京工业大学微课教学比赛一等奖

2. 2024年中国石油和化学工业联合会科技进步一等奖

3. 2024年南京工业大学本科教学成果特等奖

4. ASME PVP2018国际会议优秀论文

5. 2017年第九届全国压力容器学术会议青年论文二等奖

v科研成果：

目前发表学术论文60余篇，其中以第一作者/通讯作者身份在Materials Science & Engineering A、International Journal of Fatigue、Engineering Fracture Mechanics、Materials Characterization、European Journal of Mechanics - A/Solids等国内外权威期刊发表SCI论文40余篇，授权/公开国家发明专利5项。任国家自然科学基金通讯评审人，中国机械工程学会高级会员，SCI期刊Crystals客座编辑，《材料热处理学报》青年编委，Additive Manufacturing、Reliability engineering & systems safety、Materials Science & Engineering A、International Journal of Fatigue、Engineering Fracture Mechanics、International Journal of Pressure Vessels and Piping、Engineering Failure Analysis等多个国际期刊审稿人，具有压力容器分析设计(SAD)证。指导研究生获南京工业大学优秀博士、硕士论文。

v个人学术主页:

ResearchGate: https://www.researchgate.net/profile/Wei-Zhang-147

Google Scholar: https://scholar.google.com/citations?user=3-dkH9YAAAAJ&hl=zh-CN

v近五年代表性论文 (均为第一/通讯作者):

[1] Qixuan Zhang Q, Wei Zhang*, Wen Chu, Dengdeng Rong, Qiaofa Yang, Tianhao Ma, Changyu Zhou. Data-assisted physics-informed neural network for predicting fatigue life under various strain ratios and pre-strain effect[J]. Engineering Fracture Mechanics, 2025, 325: 111319.

[2] Wei Zhang*, Peng Yin, Weijie Chen, Qiaofa Yang, Fei Liang, Bumei Wang, Le Chang, Changyu Zhou. A comprehensive investigation on thermomechanical fatigue failure mechanism and remaining properties of 316L stainless steel. Engineering Failure Analysis, 2025, 169: 109193.

[3] Qiaofa Yang, Wei Zhang*, Peng Niu, Xinghui Chen, Peng Yin, Le Chang, Changyu Zhou. A damage-coupled unified constitutive modelling for predicting the deformation behaviour of 316L under isothermal fatigue and thermo-mechanical fatigue loading conditions. European Journal of Mechanics-A/Solids, 2025, 111: 105529.

[4] Fei Liang, Wei Zhang*, Qiaofa Yang, Peng Yin, Qixuan Zhang, Tianhao Ma, Le Chang, Changyu Zhou. Multiaxial low cycle fatigue behavior and constitutive model of 316L under various loading paths at high-temperature[J]. International Journal of Fatigue, 2025, 191: 108708.

[5] Qiaofa Yang, Wei Zhang*, Peng Yin, Bumei Wang, Le Chang, Changyu Zhou. Deformation and microregion fracture mechanisms in type 316L welded joint under isothermal and thermo-mechanical fatigue loadings[J]. Materials Science and Engineering: A, 2024, 916: 147338.

[6] Peng Yin, Wei Zhang*, Qiaofa Yang, Xinghui Chen, Fei Liang, Le Chang, Changyu Zhou. Insight into the role of thermal on the thermomechanical fatigue properties and microstructural damage mechanism of 316L stainless steel[J]. Materials Science and Engineering A, 2024, 900: 146382.

[7] Fei Liang, Wei Zhang*, Xuanming Zhang, Xinghui Chen, Qiaofa Yang, Peng Yin, Changyu Zhou. The strain ratio-dependent multiaxial low cycle fatigue behaviour and life prediction of 316L stainless steel based on critical plane at elevated temperature[J]. Engineering Fracture Mechanics, 2024, 301: 110035.

[8] Wei Zhang*, Xuanming Zhang, Kaihao Zhang, Fei Liang, Xianxi Xia, Le Chang, Changyu Zhou. Multiaxial non-proportional fatigue behaviour and microstructural deformation mechanisms of 9% Cr steel at elevated temperature[J]. Materials Characterization, 2023, 203: 113158.

[9] Qiaofa Yang, Wei Zhang*, Yanjun Guo, Fei Liang, Peng Yin, Le Chang, Changyu Zhou*. A universal constitutive model considering strain range dependence effect and transient behaviour for both cyclic softening and hardening steels[J]. Engineering Fracture Mechanics, 2023, 290: 109481.

[10] Fei Liang, Wei Zhang*, Furen Chen, Peng Yin, Qiaofa Yang, Le Chang, Changyu Zhou*. Experimental and constitutive modelling studies of type 316L stainless steel based on internal stress under low cycle fatigue and creep-fatigue interaction[J]. International Journal of Fatigue, 2023, 175: 107835.

[11] Wei Zhang*, Qiaofa Yang, Peng Yin, Guodong Zhang, Xianxi Xia, Yanfen Zhao, Liyu Wang, Guosong Jiang, Changyu Zhou. Thermomechanical fatigue and fracture behaviours of welded joints at various temperatures[J]. Engineering Fracture Mechanics, 2022, 271: 108644.

[12] Peng Yin, Wei Zhang*, Qiaofa Yang, Fei Liang, Guodong Zhang, Xianxi Xia, Yanfen Zhao, Changyu Zhou*. Dynamic strain aging and microstructural damage mechanism of austenitic stainless steel under thermomechanical fatigue in the temperature range of 250–400 °C[J]. International Journal of Fatigue, 2022, 163: 107111.

[13] Ning Gao, Wei Zhang*, Peng Yin, Fei Liang, Guodong Zhang, Xianxi Xia, Yanfen Zhao, Changyu Zhou*. Multiaxial fatigue behaviour and damage mechanisms of P92 steel under various strain amplitudes and strain ratios at high temperature[J]. International Journal of Fatigue, 2022, 158: 106774.

[14] Peng Yin, Wei Zhang*, Shen Guo, Jianbin Wen, Guodong Zhang*, Fei Xue, Yanfen Zhao, Changyu Zhou. Thermomechanical fatigue behaviour and damage mechanisms in a 9% Cr steel: Effect of strain rate[J]. Materials Science and Engineering A, 2021, 815: 141308.

[15] Shen Guo, Wei Zhang*, Peng Yin, Tianhao Ma, Jianbin Wen, Guodong Zhang, Fei Xue, Yanfen Zhao, Changyu Zhou*. Cyclic deformation behavior and life prediction of P92 steel welded joints under thermomechanical fatigue loadings[J]. International Journal of Fatigue, 2021, 147: 106183.

v授权/申请国家发明专利:

[1] 张威, 杨桥发, 梁飞, 陈星慧, 周昌玉. 一种基于融合多策略黑翅鸢算法的粘塑性本构模型参数识别方法, 2025-06-20, 中国, CN 202510222847.2.

[2] 张威, 张轩铭, 梁飞, 马天昊, 周昌玉. 基于内应力塑性应变能的多轴蠕变-疲劳损伤评价方法, 2024-10-23, 中国, CN 202411481549.7

[3] 张威, 陈星慧, 唐健, 尹鹏, 周昌玉. 一种U形缺口结构的裂纹尖端J积分计算方法, 2024-08-13, 中国, ZL 202410603149.2.

[4] 张威, 杨桥发, 梁飞, 尹鹏, 周昌玉. 基于改进粒子群算法的热粘塑性本构模型参数识别方法, 2024-08-28, 中国, ZL 202410347231.3.

[5] 张威, 张毅, 尹鹏, 周昌玉. 一种热机疲劳剩余循环寿命全数值预测方法与系统, 2024-07-02, 中国, ZL 202410141569.3.

² 期待与高度自律、积极进取的“奋斗者”们相遇，我们亦师亦友，在科研的道路上互相支持，一路前行。