Teaching assistant at Guangdong Polytechnic, China
š Haitao Chen, a teaching assistant with a masterās degree, specializes in ultrafine-grained metal materials. š Renowned for innovative research in aluminum alloys, his work advances microstructure optimization and material stability. š With publications in SCI-indexed journals and a patented bidirectional extrusion mold, Haitao blends academic excellence with applied expertise, contributing to mechanical engineering breakthroughs.
Profile
orcid
Education š
South China University of Technology (2017.09ā2020.06) Degree: Master’s in Mechanical Engineeringš Honors: Graduate First-Class Scholarship, Excellent Graduate Student Union CadrešÆ GPA: 3.8/4.0 Haitao Chen’s academic foundation emphasizes precision design, material characterization, and finite element analysis, paving the way for groundbreaking research.
Experienceš¼
š¼ National Natural Science Foundation of China (2017.09ā2017.12)š ļø Studied nanocrystalline chip microstructure and thermal stability; published in Metals (SCI Q2)š¼ Guangdong Outstanding Youth Fund (2017.09ā2019.06)āļø Researched mechanical properties and corrosion of nanocrystalline aluminum tapesš Developed ultrafine-grained sheets via a patented bidirectional extrusion method
Awards and Honorsš
Graduate First-Class Scholarship (2020) Excellent Graduate Student Union Cadre (2020) Authorized Invention Patent: Preparation method for ultrafine-grained metal sheets SCI Publications: Featured in Metals (Q2) and Materialwiss. Werkstofftech (Q4)
Research Focus š¬
Haitao Chen’s research revolves around Low-temperature cutting and aging behavior in ultrafine-grained 7075 aluminum alloysš ļø Cryogenic large-strain machining for ultrafine chip preparationāļø Mechanical properties and corrosion resistance in high-strain metal tapes
PublicationĀ Top Notes
š Publication: Materialwissenschaft und Werkstofftechnik
š
Date: November 2024
š DOI: 10.1002/mawe.202300303
š·ļø ISSN: 0933-5137 / 1521-4052
š©āš¬ Contributors: Haitao Chen, Y. Zhang, F. Jiang, T. Chen
š Details: This study explores the effects of cryogenic-temperature machining on producing ultrafine-grained chips, emphasizing surface quality improvement for 7075 aluminum alloys.
Preparation of Ultrafine-Grained Continuous Chips by Cryogenic Large Strain Machining
š Publication: Metals
š
Date: March 20, 2020
š DOI: 10.3390/met10030398
š·ļø ISSN: 2075-4701
š©āš¬ Contributors: Haitao Chen, Baoyu Zhang, Jiayang Zhang, Wenjun Deng
š Details: This work focuses on cryogenic large-strain machining for producing continuous ultrafine-grained chips, showcasing advancements in material processing technologies.
Conclusion
Haitao Chen is a strong contender for the Research for Best Researcher Award. His innovative work in cryogenic machining and nanostructured material preparation, supported by robust academic and professional achievements, demonstrates excellence. Addressing areas like citation impact and global collaboration would further enhance his candidacy. His contributions to material science and engineering exemplify the values of this prestigious award.