Company Filing History:
Years Active: 2020
Title: Innovations of Bei-Huw Shen in Wear-Resistant Hybrids
Introduction
Bei-Huw Shen is an accomplished inventor based in Taichung, Taiwan. He has made significant contributions to the field of materials science, particularly in the development of wear-resistant hybrids. His innovative approach combines advanced chemical processes to create durable materials suitable for various applications.
Latest Patents
One of Bei-Huw Shen's notable patents is titled "Method for preparing wear-resistant hybrid." This patent outlines a comprehensive method that includes several key steps. First, it involves providing nano-silica with hydroxyl groups on its surface to react with an isocyanate-based silane, forming silica with silyl groups. Next, the silica undergoes a hydrolytic condensation reaction using sol-gel technology to create highly bifurcated Si-HB nanoparticles with hydroxyl groups. The process continues with the reaction of a diisocyanate and a polyol to form a urethane pre-polymer. Finally, the Si-HB nanoparticles react with the urethane pre-polymer and a chain-extending reagent to produce a hybrid of Si-polyurethane, resulting in a wear-resistant hybrid material.
Career Highlights
Bei-Huw Shen is affiliated with the National Chung Shan Institute of Science and Technology, where he conducts research and development in advanced materials. His work has led to the creation of innovative solutions that enhance the performance and durability of materials used in various industries.
Collaborations
Among his colleagues are Chang-Lun Lee and Chih-Chia Chen, who contribute to the collaborative efforts in research and development at the institute. Their teamwork fosters an environment of innovation and creativity, leading to groundbreaking advancements in material science.
Conclusion
In summary, Bei-Huw Shen's contributions to the field of wear-resistant hybrids demonstrate his expertise and commitment to innovation. His patented methods pave the way for the development of advanced materials that can withstand wear and tear, showcasing the importance of research in enhancing material performance.