Company Filing History:
Years Active: 2011
Title: Lionel Cho-Young: Innovator in Rubber Compound Technology
Introduction
Lionel Cho-Young, a distinguished inventor based in Brights Grove, California, has made his mark in the field of material science through his innovative work on rubber compounds. With his expertise, he has developed a novel solution that enhances the performance characteristics of tires, crucial for the automotive industry.
Latest Patents
One of Lionel Cho-Young's most notable achievements is his patent for "Butyl rubber compounds comprising a three component mixed modifier system." This innovative patent details rubber compounds that incorporate a halobutyl elastomer, additional elastomers, a mineral filler, and a unique three-component mixed modifier system. The modifier system consists of a silane compound, a phosphine compound, and an additive that includes at least one hydroxyl group and a functional group containing a basic amine. The resulting compounds boast improved processability, traction, rolling resistance, and wear properties, making them particularly advantageous for tire treads.
Career Highlights
Lionel Cho-Young works at Lanxess Corporation, a leading specialty chemicals company known for its contributions to various industries, including rubber manufacturing. His work at Lanxess showcases his commitment to innovation and excellence in enhancing the performance of rubber materials.
Collaborations
Throughout his career, Lionel has collaborated with notable colleagues such as Ezio Campomizzi and Ralf-Ingo Schenkel. These collaborations have not only fostered a rich exchange of ideas but have also significantly contributed to the advancement of rubber compound technology.
Conclusion
Lionel Cho-Young's contributions to the field of rubber compounds exemplify the importance of innovation in enhancing material properties for specific applications, such as in tire manufacturing. His patented work and collaborations reflect a dedication to improving industry standards and driving technological advancements forward.