职称：助理教授

电子邮件：wangqidi@tongji.edu.cn

研究领域：结构维护与性能恢复

个人简介：

王启迪，工学博士，同济大学桥梁工程系助理教授。博士毕业于日本九州大学（Kyushu University），期间作为核心成员参与日本学术振兴学会（JSPS）、日本宇宙航空研究开发机构（JAXA）及西日本高速道路株式会社（NEXCO）等机构的多项科研项目，研究方向涵盖激光技术、前沿功能材料与腐蚀科学。在TOYOKOH株式会社Coollaser部门担任兼职博士研究员期间，开展面向工程应用的激光腐蚀维护技术研究与装备开发。归国后，围绕长期服役工程结构的安全与耐久性问题，主要开展钢结构腐蚀演化机理、材料性能退化与恢复方法以及工程维护工艺优化等方面的研究工作，入选国家级人才计划、上海市浦江人才计划，主持国家自然科学基金、中国博士后科学基金等项目，以第一/通讯作者发表论文十余篇。

主要学历：

• 2019.10-2023.03九州大学（Kyushu University），土木工程，工学博士

• 2016.09-2019.07北京建筑大学，桥梁工程，工学硕士

• 2012.09-2016.07同济大学，土木工程，工学学士

任职经历：

• 2026.05-至今同济大学，桥梁工程系，助理教授

• 2023.05-2026.05同济大学，桥梁工程系，博士后

研究项目：

• 国家自然科学基金青年基金（C类），桥梁钢结构激光熔合膜层的界面结合机理及长效防蚀性能调控研究，2026.01-2028.12，主持

• 中国博士后科学基金面上项目，锈蚀钢结构的激光增材熔覆机理和数值方法研究，2024.07-2026.04，主持

• 上海市白玉兰人才计划浦江项目（A类），沿海地区腐蚀钢结构激光清洁与阻锈镀膜同步熔覆方法研究，2023.10-2025.10，主持

代表性成果：

1. Wang, Q., Li, S., Kainuma, S., Liu, Y. & Tang, J. Interfacial corrosion behavior of thermally sprayed Al-5Mg coatings under localized salt contamination. Surfaces and Interfaces 83, 108547 (2026).

2. Wang, Q., Kainuma, S., Ju, Y., Kim, A. & Nishitani, T. Effect of the spraying process on corrosion resistance and durability of Al-5Mg coating on carbon steel: A comparison of transferred arc plasma spraying and flame spraying methods. Surfaces and Interfaces 64, 106377 (2025).

3. Wang, Q., Kainuma, S., Yang, H., Kim, A. & Nishitani, T. Deterioration mechanism of overlaid heavy-duty paint and thermal spray coatings on carbon steel plates in marine atmospheric environments. Progress in Organic Coatings 200, 109057 (2025).

4. Wang, Q., Kainuma, S., Yang, H., Kim, A. & Nishitani, T. Durability and corrosion resistance of defective Zn- and Al-based thermal spray coatings on carbon steel plates in high-chloride environments. Results in Engineering 28, 108206 (2025).

5. Wang, Q., Kainuma, S., Zhuang, S., Fujita, K. & Ruan, X. Mechanical properties and tensile failure mechanisms of SM400A steel treated by high-power continuous-wave laser. Journal of Materials Research and Technology 32, 4293–4303 (2024).

6. Wang, Q., Kainuma, S., Fujita, K. & Ruan, X. Efficient rust and salt elimination from severely corroded weathering steel using continuous-wave laser as an intermediate treatment. Construction and Building Materials 440, 137438 (2024).

7. Wang, Q., Kainuma, S., Zhuang, S. & Haraguchi, M. Effect of continuous wave laser treatment on the adhesion and durability of heavy-duty paint coated carbon steel. Case Studies in Construction Materials 19, e02420 (2023).

8. Wang, Q., Kainuma, S., Huo, P. & Zhuang, S. Continuous-wave laser surface cleaning of high strength bolts: Analysis of bolt axial force loss. Structures 48, 1598–1608 (2023).

9. Wang, Q., Kainuma, S., Huo, P. & Morikawa, R. Quantitative evaluation of surface cleanliness of weathering steel treated by continuous wave laser. Optics & Laser Technology 158, 108864 (2023).

10. Wang, Q., Kainuma, S., Zhuang, S., Shimizu, K. & Haraguchi, M. Laser cleaning on severely corroded steel members: Engineering attempt and cleanliness assessment. Journal of Cleaner Production 376, 134224 (2022).