Company Filing History:
Years Active: 1980-1987
Title: Reet T Fernandez: Innovator in Polymer Chemistry
Introduction
Reet T Fernandez is a prominent inventor based in Midland, MI (US). She has made significant contributions to the field of polymer chemistry, particularly in the development of innovative materials and coatings. With a total of 4 patents to her name, her work has had a substantial impact on various industrial applications.
Latest Patents
Among her latest patents, one notable invention is the development of poly(siloxane)-modified epoxy resins. This invention involves dispersions of siloxane polymers and optional dispersion stabilizers in a polyepoxide resin continuous phase. The unique aspect of this invention is that the siloxane polymer is grafted to the polyepoxide resin, resulting in stable dispersions. These compositions are curable and find utility as coatings, in preparing laminates and reinforced plastics, and as adhesives. Another significant patent is for dispersible vinylidene chloride polymer powders as additives for polymers. This invention describes a vinylidene chloride polymer powder that is recovered from a latex and can be dispersed with moderate shear in a non-solvent for vinylidene chloride polymers. The resulting dispersion is particularly suitable for enhancing flame retardancy and load-bearing properties in polyurethane foams.
Career Highlights
Reet T Fernandez is currently employed at The Dow Chemical Company, where she continues to innovate and develop new materials. Her expertise in polymer chemistry has positioned her as a key contributor to the company's research and development efforts.
Collaborations
Throughout her career, Reet has collaborated with notable colleagues, including Dale S Gibbs and Jack H Benson. These collaborations have further enriched her work and contributed to the advancement of polymer technologies.
Conclusion
Reet T Fernandez is a distinguished inventor whose work in polymer chemistry has led to several impactful patents. Her contributions to the field continue to influence the development of advanced materials and coatings.