Dr Shichang Chen, Zhejiang Sci-Tech University, China
Dr. Shichang Chen ππ¬ is a distinguished researcher in polymer materials and engineering. He earned his Ph.D. from Zhejiang Sci-Tech University (2017) and completed postdoctoral research at Zhejiang University (2019-2022). Currently, he is a faculty member at Zhejiang Sci-Tech University. His innovations have led to large-scale reactor applications, with 40 invention patents (22 authorized) and transactions exceeding 100 million yuan π‘π°. He has led multiple national and provincial projects and published 40+ papers in top journals ππ. Recognized with prestigious awards, including Zhejiang Provinceβs High-level Talent Support Program (2024), Dr. Chen advances polymer science and engineering globally π.
Publication Profile
Scopus
Education and Experience
Dr. Shichang Chen π is a dedicated researcher in polymer materials. He earned his Bachelor’s degree in Polymer Materials and Engineering from Yangtze University (2007-2011) ποΈ. He then pursued his Ph.D. in Textile Science and Engineering at Zhejiang Sci-Tech University (2011-2017) π§΅π¬. Following this, he completed a postdoctoral fellowship in Materials Science and Engineering at Zhejiang University (2019-2022) π
. Since 2017, he has been contributing to the Department of Polymer Materials at Zhejiang Sci-Tech University ππ§ͺ. His expertise spans polymer materials, textiles, and advanced material sciences, driving innovation in the field π.
Research Funding & Projects
Dr. Shichang Chen ππ¬ has successfully secured and led multiple prestigious research projects, showcasing his expertise in scientific innovation. His achievements include securing 2 National Funds π¨π³, 2 Zhejiang Provincial Funds π
, and 10 Enterprise Projects πΌ. He has actively contributed to key national research initiatives, including the 973 Program π, National Key R&D Programs π§ͺ, and three strategic consulting research projects at the Chinese Academy of Engineering ποΈ. Dr. Chenβs dedication to advancing research and technological development continues to make a significant impact in his field. ππ
Research AchievementsΒ
Dr. Shichang Chen has made remarkable contributions to reactor applications for 10,000-ton and 1,000-ton production lines βοΈπ. He has declared 40 invention patents, with 22 authorized, and patent transactions exceeding 100 million yuan π‘π°. As a lead researcher, he has hosted 2 national funds, 2 Zhejiang Provincial funds, and 10 enterprise projects, while also playing a key role in national 973 and strategic consulting research projects ππ¬. With a strong academic presence, he has published a book and 40 papers in top-tier journals like Macromolecules, focusing on polymers and chemical engineering ππ§ͺ.
Honor AwardΒ
Dr. Shichang Chen π is a distinguished researcher recognized for his contributions to textile science. In April 2024, he was selected for the Zhejiang Province High-level Talent Support Program as a young top talent π. The previous month, he joined the Zhejiang Academician Pair Young Talents Program π
. His excellence was also acknowledged in October 2021 when he was awarded the China Association for Science and Technology Youth Lifting Talent Project π. Additionally, he serves as a Young Editorial Member for the EI Journal of Textile Research (December 2021) and Modern Textile Technology (January 2023) ππ¬.
Research Focus
Dr. Shichang Chen’s research focuses on polymer engineering, mooring rope mechanics, and chemical process simulations π¬βοΈ. His work includes dynamic stiffness analysis of damaged polyester mooring ropes π³οΈ, the mechanical behavior of aramid and polyester fibers under loading history β‘, and falling film polymerization processes π. He also explores numerical simulation of variable viscosity fluids π»π and waste PET depolymerization for recycling β»οΈπ§ͺ. His studies contribute to marine engineering, textile chemistry, and sustainable polymer recycling, advancing both industrial applications and environmental sustainability ππ. His expertise spans mechanics, materials science, and chemical engineering ποΈβοΈ.
Publication Top Notes
Dynamic stiffness of full-scale damaged polyester mooring ropes
Effects of bedding-in loading history on mechanical behaviors of aramid HMPE and polyester mooring ropes
Process Simulation of falling film liquid-state polymerization of polyester
Numerical Simulation Strategy and Applications for Falling Film Flow with Variable Viscosity Fluids
Depolymerization of waste poly(ethylene terephthalate) into bis(2-hydroxyethyl) terephthalate: Catalytic glycolysis mechanism and kinetics