Associate professor, at Hunan Chemical Vocational Technology College, China.
Xiang Li is an Associate Professor at Hunan Chemical Vocational Technology College specializing in polymer materials and intelligent manufacturing technology. Holding a Masterβs degree in Applied Chemistry from Jinan University, Xiang combines academic expertise with practical industry experience in product R&D and technical management. With over 30 academic papers published, Xiang focuses on innovative solutions in wood-plastic composites, waste plastic recycling, and flame-retardant polymer materials. His dedication to advancing polymer science through teaching and research has made him a key contributor in his field. Currently, he leads multiple research projects at national and provincial levels, aiming to improve sustainable material technologies. Xiangβs passion lies in bridging academic research with real-world industrial applications to create eco-friendly and high-performance polymer products.
Professional Profile
ORCID
Education π
Xiang Li earned his Master of Applied Chemistry from Jinan University, where he gained strong foundations in polymer science and material engineering. His academic training equipped him with skills in chemical synthesis, material characterization, and advanced manufacturing techniques. The masterβs program emphasized both theoretical knowledge and hands-on research, fostering Xiangβs interest in sustainable polymers and composites. Since completing his degree, Xiang has continuously expanded his expertise through professional practice and research projects. His educational background provides a solid platform for his current work in intelligent manufacturing technology and polymer materials engineering. This blend of formal education and practical experience positions him to excel in teaching and innovative research focused on next-generation polymer applications.
Experience πΌ
Xiang Liβs career blends academic teaching with hands-on industrial research and development. As a full-time faculty member at Hunan Chemical Vocational Technology College, he instructs courses on Intelligent Manufacturing Technology for Polymer Materials and Materials Engineering Technology. Prior to academia, Xiang gained extensive experience in corporate R&D and technical management, focusing on product innovation and quality improvement. Over the years, he has led or collaborated on six major research projects funded by national and provincial agencies, showcasing his leadership in polymer science. His industry collaborations emphasize practical applications of wood-plastic composites and flame-retardant materials, contributing to sustainable polymer development. Xiangβs work is characterized by its applied approach, linking laboratory research with industrial needs and environmental considerations.
Research Interests π¬
Xiang Liβs research centers on wood-plastic composite materials, recycling of waste plastics, and flame-retardant polymer systems. He explores advanced material formulations that enhance durability, environmental resistance, and safety of polymer composites. Key interests include the development of sustainable polymer composites using recycled plastics, improving flame retardancy through novel additives, and modifying plastics to optimize performance. His work involves both fundamental studies of polymer degradation mechanisms and applied research in composite fabrication. Xiang aims to reduce plastic waste impact while creating high-value materials for industrial applications. His projects often investigate synergistic effects of mineral additives like muscovite and kaolin on polymer stability and mechanical properties, advancing eco-friendly material design.
Awards π
Xiang Li has been recognized for his research excellence in polymer materials and sustainable composites. His ongoing commitment to innovative solutions in recycling and flame retardancy has earned him nominations for the Best Researcher Award. He actively participates in national and provincial research projects, contributing to advancements in polymer engineering. Though still early in his career, Xiangβs growing publication record and leadership in funded projects highlight his potential as a rising scholar in materials science. His work has also attracted citations from peers, reflecting its impact in the field. Xiangβs dedication to teaching and applied research further strengthens his candidacy for awards recognizing contributions to chemical and materials sciences.
Top Noted Publications π
Xiang Li has authored over 30 academic papers, prominently published in well-regarded journals such as Polymer Degradation and Stability, Iranian Polymer Journal, and Journal of Applied Polymer Science. His research articles focus on polymer composites, recycling, and flame retardancy. Notable recent publications include:
1. Li, X., Xie, G., & Wang, Z. (2025).
Title: Fabrication of Thin-Walled Flame-Retardant Recycled Polyethylene Composites: Synergistic Flame Retardancy of Muscovite in APPMCA Systems
Journal: Polymer Degradation and Stability
Summary:
This paper focuses on developing thin-walled recycled polyethylene composites with enhanced flame retardancy by using muscovite in APPMCA (Ammonium Polyphosphate/Melamine Cyanurate/Aluminum Diethylphosphinate) systems. The study highlights the synergistic effect of muscovite in improving flame-retardant properties.
Impact: Cited by 5 articles.
Link: [Unavailable here; you mentioned a link exists]
2. Liu, X., Liu, W., & Li, X. (2025).
Title: Organic Intercalation of Kaolin and Its Effect on Freeze-Thaw Resistance of Wood Plastic Composites
Journal: Iranian Polymer Journal
Summary:
This research investigates the organic modification (intercalation) of kaolin clay and how it influences the freeze-thaw durability of wood plastic composites. The study aims to improve the composite’s performance in cold climates by enhancing its resistance to freeze-thaw cycles.
Link: [Unavailable here; you mentioned a link exists]
3. Li, X., & Fang, S. (2023).
Title: Preparation and Property Analysis of Kaolin/Melamine Cyanurate/Aluminum Diethylphosphinate/Recycled PET Composites
Journal: Journal of Applied Polymer Science
Summary:
This paper presents the preparation method and detailed analysis of composite materials made from recycled PET reinforced with kaolin, melamine cyanurate, and aluminum diethylphosphinate. The study assesses mechanical, thermal, and flame-retardant properties of the composites.
Link: [Unavailable here; you mentioned a link exists]
Conclusion
Xiang Li is a well-qualified and productive researcher with a strong focus on relevant and impactful areas in polymer materials and recycling technology. Their sustained publication record, leadership in multiple funded projects, and commitment to applied research strongly support their candidacy for the Best Researcher Award. While there are opportunities to enhance visibility and impact metrics, the current accomplishments and contributions demonstrate that Xiang Li is a deserving nominee with significant potential for further achievements.