Location History:
- Stevenage, GB (1983)
- Durham, GB (1987)
Company Filing History:
Years Active: 1983-1987
Title: Michael K Cox: Innovator in Polymer Compositions
Introduction
Michael K Cox is a notable inventor based in Stevenage, GB. He has made significant contributions to the field of polymer compositions, holding a total of 2 patents. His work focuses on enhancing the properties of materials used in various applications, particularly in electrical conductors and bearings.
Latest Patents
One of Michael K Cox's latest patents is for a polymer composition that includes a polyaryletherketone. This composition is designed to ensure that a wire coated with it has a recoil of not more than 40 degrees. The pliability of this composition is enhanced by the inclusion of boron nitride, allowing for a more flexible wire coating compared to using the polymer alone. This innovation is also applicable in the production of bearings or bearing liners.
Another significant patent by Cox involves anisotropic melt forming polyesters and polyesteramides. This invention features a polyester or polyesteramide capable of forming an anisotropic melt, which contains residues derived from various acids and phenols. Notably, at least 10 mole % of the acid residues are derived from fumaric acid or its substitutes. This polyester is particularly suitable for blending with chlorine-containing polymers, improving their processability.
Career Highlights
Michael K Cox is associated with Imperial Chemical Industries Limited, where he has been instrumental in developing advanced polymer technologies. His expertise in polymer science has led to innovations that enhance material performance in various industrial applications.
Collaborations
Cox has collaborated with Brian P Griffin, contributing to the advancement of polymer compositions and their applications in the industry.
Conclusion
Michael K Cox's contributions to polymer science through his innovative patents demonstrate his commitment to enhancing material properties for practical applications. His work continues to influence the field and pave the way for future advancements.