Mr. Weihai Xue is affiliated with the prestigious Institute of Metal Research, Chinese Academy of Sciences, which indicates a strong educational foundation in materials science and engineering π§ͺπ. Although his exact academic degrees are not detailed, his prolific contributions to high-impact journals and experimental research suggest he holds postgraduate-level training, likely including a masterβs or Ph.D. in tribology, surface engineering, or materials physics ππ¬. His expertise in wear resistance, coatings, and erosion mechanics demonstrates advanced knowledge developed through intensive academic and laboratory experience βοΈπ§ , establishing him as a well-trained and competent researcher.
π’ Experience
Mr. Weihai Xue is a research scientist at the Institute of Metal Research, Chinese Academy of Sciences π’. His expertise lies in surface engineering, material protection, and advanced coating technologies π¬π§ͺ. He actively collaborates with industrial and academic partners to develop high-performance coatings for aerospace and renewable energy applications βοΈπ¬οΈ. His work addresses extreme conditions such as high-temperature wear, corrosion, and droplet erosion π‘οΈπ§. Mr. Xue contributes significantly through hands-on experimentation, scientific analysis, and impactful publications ππ. His experience reflects innovation, technical excellence, and dedication to solving real-world engineering challenges βοΈπ.
π¬ Research Focus
Mr. Weihai Xueβs research focuses on surface engineering, material protection, and erosion mechanisms in harsh environments such as high-speed impact and corrosive conditions πͺοΈπ‘οΈ. He investigates fretting wear, anti-corrosive coatings, and erosion resistance in both metallic and polymer materials βοΈπ§ͺ. His work is highly relevant to aerospace and renewable energy applications βοΈπ¨. Using advanced microscopy and profilometry ππ§«, he explores the relationship between coating composition and mechanical behavior. His goal is to develop durable coatings that prevent damage, extend service life, and improve material performance in real-world industrial conditions ππ§±.
π Publications
Study on Fretting Wear Behavior of Titanium Alloys Sliding Against Various Friction Pair Materials at Room Temperature for Aero-Engine Applications
Authors: Abdur Razzak, Sixiang Wang, Weihai Xue, Siyang Gao, Deli Duan
Journal: Journal of Bio- and Tribo-Corrosion (2025)
Effect of Sliding Speed on Anti-aluminium Adhesion Behaviour of TiBβ Deposited on Titanium Alloy under High Temperature
Authors: Bi Wu, Siyang Gao, Weihai Xue, Shu Li, Deli Duan
Journal: Surface Technology (2025)
A Comparative Study of the Differences in Microstructure and Properties of Tribo-Layers of DD5 Nickel-Based Single-Crystal Superalloys Caused by External Heat and Friction Heat in Dry Sliding Wear
Authors: Shuai Yang, Siyang Gao, Weihai Xue, Wenfeng Yu, Deli Duan
Journal: Wear (2025)
Oxidation, Hot Corrosion, and Interdiffusion Behavior of NiAlTa Coating by Electro-Spark Deposition
Authors: Shuai Yang, Siyang Gao, Weihai Xue, Bi Wu, Deli Duan
Journal: Rare Metals (2025)
Preparation of Protective Coatings for the Leading Edge of Wind Turbine Blades and Investigation of Their Water Droplet Erosion Behavior
Authors: Zilong Zheng, Haijing Sun, Weihai Xue, Xin Zhou, Jie Sun
Journal: Wear (2024)