本方向聚焦国家重大工程和装备设施安全可靠服役需求,研究表面防护材料环境服役行为与损伤失效机理,解决材料腐蚀萌生、拓展以及防护措施等基础问题,回答材料环境服役延寿及耐久提升相关的科学问题,研发高性能与多功能表面防护材料及寿命评价技术,为国家关键领域设施与设备服役安全及寿命延长提供全套解决方案。
代表论文:
(1) Xie, J.; Wu, H.*; Tao, J.; Liu, X.; Tong, Y.; Qi, S.; Ran, Q.* Cross-Scale Interface Engineering Strategy to Achieve Self-Healing Antifouling Material Strength and Toughness Symbiosis. Chem. Eng. J., 2024, 496, 154037.
(2) Tao, J.; Dong, L.*; Wu, Y.; Liu, X.; Xie, J.; Wu, H.; Ran, Q.* Fabrication of Room Temperature Self-Healing, Robust Superhydrophobic Coatings via Spraying Dual Cross-Linking Supramolecular Silicone Polymer/SiO2 Composite. Compos. B Eng., 2024, 273, 111245.
(3) Wu, Y.; Dong, L.*; Shu, X.; Yang, Y.; Feng, P.; Ran, Q.* Recent Advancements in Photothermal Anti-Icing/Deicing Materials. Chem. Eng. J., 2023, 469, 143924.
(4) Liu, X.; Li, S.*; Wu, Y.; Guo, T.; Xie, J.; Tao, J.; Dong, L.; Ran, Q.* Robust All-Waterborne Superhydrophobic Coating with Photothermal Deicing and Passive Anti-Icing Properties. ACS Appl. Mater. Interfaces, 2023, 15, 44305.
(5) Wu, Y.; Shu, X.; Yang, Y.; She, W.; Dong, L.*; Ran, Q.* Fabrication of Robust and Room-Temperature Curable Superhydrophobic Composite Coatings with Breathable and Anti-Icing Performance. Chem. Eng. J. 2023, 463, 142444.
专利:
[1] 冉千平,吴袁龙,董磊等. 一种超疏水纳米复合浆料及其在透气超疏水涂层中的应用: CN118109123A[P]. 2024-05-31