Dr. Haixin Li | Surface and Coating Technology | Best Researcher Award
Harbin Engineering University | China
AUTHOR PROFILE
EARLY ACADEMIC PURSUITS
Haixin Li was born on April 14, 1982, in China. He pursued his academic interests in materials science and engineering, obtaining a Bachelor's degree in Metal Materials from Shenyang Ligong University in 2005. He continued his education at the Harbin Institute of Technology, where he earned a Master's degree in Materials Processing Engineering in 2007, followed by a Ph.D. in the same field in 2012. His early academic pursuits laid a strong foundation in surface and coating technology, welding, and metal additive manufacturing.
PROFESSIONAL ENDEAVORS
Dr. Haixin Li is currently an Associate Professor at the Yantai Research Institute of Harbin Engineering University. His professional journey includes significant contributions to research and development in surface and coating technology, joining and welding technology, and metal additive manufacturing. He has been involved in numerous national and provincial projects, such as the National Key R&D Program and the Shandong Provincial Laboratory Basic Research Open Project, focusing on the performance of high entropy alloy coatings and cold crack control mechanisms during underwater arc additive repair of high-strength marine engineering steel.
CONTRIBUTIONS AND RESEARCH FOCUS
Dr. Li's research focuses on surface and coating technology, specifically the development and application of wear and corrosion-resistant coatings for marine equipment components. His work includes the preparation and performance study of CoCrFeNiNb based wide temperature range self-lubricating high entropy alloy coatings. He has also made significant advancements in the integrated composite manufacturing technology of complex metal components through multi-energy field coupling assisted rapid laser addition and reduction of materials. His innovative approaches to welding metallurgical processes and the development of special welding materials have been crucial in improving the quality and durability of welded joints in challenging environments.
IMPACT AND INFLUENCE
Dr. Li's research has had a substantial impact on the field of surface and coating technology. His work on high entropy alloy coatings has improved the wear and corrosion resistance of marine equipment, significantly enhancing their performance and lifespan. His contributions to underwater welding and additive manufacturing have addressed critical challenges in the industry, leading to more robust and reliable solutions. As a member of the Youth Editorial Board for the journal of Materials Protection and an expert reviewer for the National Natural Science Foundation of China, Dr. Li has influenced the direction of research and development in his field.
ACADEMIC CITES
Dr. Li's work is well-regarded in the academic community, as evidenced by his involvement in high-profile research projects and his role as an expert reviewer for national and provincial projects. His research has been cited extensively in studies focusing on surface and coating technology, welding, and additive manufacturing. His publications and findings are frequently referenced by peers, reflecting the significant contributions he has made to the field.
LEGACY AND FUTURE CONTRIBUTIONS
Dr. Li's legacy in the field of surface and coating technology is marked by his innovative research and practical applications that have advanced the industry. His work on high entropy alloy coatings and underwater welding has set new standards for durability and performance in harsh environments. Moving forward, Dr. Li aims to continue exploring new materials and techniques to further enhance the efficiency and effectiveness of coating technologies and metal additive manufacturing. His future contributions are expected to lead to groundbreaking advancements that will shape the future of materials science and engineering.
SURFACE AND COATING TECHNOLOGY
Haixin Li's expertise in surface and coating technology has positioned him as a leading figure in the field. His research on the development and application of high entropy alloy coatings has provided valuable insights into improving wear and corrosion resistance. His innovative approaches to welding and additive manufacturing have addressed critical industry challenges, making significant strides in enhancing the quality and durability of materials used in extreme environments. Dr. Li's ongoing research and future contributions will undoubtedly continue to drive advancements in surface and coating technology, solidifying his role as a pioneer in the field.
NOTABLE PUBLICATION
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Microstructure and wear property of WMoTaNb refractory high entropy alloy coating by laser cladding
Citation: 04 Year: 2024 -
Citation: 17 Year: 2023
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Prediction of melt pool shape in additive manufacturing based on machine learning methods
Citation: 15 Year: 2023 -
Citation: 08 Year: 2023