Company Filing History:
Years Active: 2015-2024
Title: Innovations of Yingwu Luo in Polymer Science
Introduction
Yingwu Luo is a prominent inventor based in Hangzhou, China. He has made significant contributions to the field of polymer science, particularly in the development of thermoplastic elastomers. With a total of 5 patents to his name, Luo's work focuses on enhancing the properties and production methods of advanced polymer materials.
Latest Patents
One of Luo's latest patents is titled "High melt index thermoplastic elastomer and preparation method therefor." This invention discloses a high melt index thermoplastic elastomer achieved through an emulsion polymerization system and a reversible addition chain transfer free radical polymerization technique. The process is designed to be simple, energy-saving, and environmentally friendly, utilizing inexpensive and readily available raw materials. The resulting elastomer exhibits excellent hot workability.
Another notable patent is the "Multiblock copolymer with narrow molecular weight distribution and preparation method therefor." This invention describes a series of multiblock copolymers prepared using similar polymerization techniques. The copolymers demonstrate a narrow molecular weight distribution, low content of dead polymers, and significantly improved mechanical properties compared to traditional triblock copolymers. The process is efficient and allows for precise control over the structural characteristics of the polymers.
Career Highlights
Yingwu Luo is affiliated with Zhejiang University, where he conducts research and development in polymer materials. His innovative approaches have positioned him as a key figure in the advancement of thermoplastic elastomers and copolymers.
Collaborations
Luo has collaborated with notable colleagues, including Xiang Gao and Jinwei Fang, to further enhance the research and development of polymer technologies.
Conclusion
Yingwu Luo's contributions to polymer science through his innovative patents reflect his commitment to advancing material technology. His work not only improves the properties of thermoplastic elastomers but also emphasizes sustainable and efficient production methods.