Company Filing History:
Years Active: 1978-1984
Title: Kenneth D. Fitzgerald: Innovator in Polymer Chemistry
Introduction
Kenneth D. Fitzgerald is a notable inventor based in Sugarland, Texas, recognized for his contributions to polymer chemistry. With three patents to his name, Fitzgerald has demonstrated a strong commitment to innovation in the development of unique processes and materials.
Latest Patents
Kenneth's recent patents reflect his specialized expertise in chloroprene and solvent cements. His notable inventions include a "Process for instantaneous peptization of chloroprene-sulfur copolymers," which involves contacting a latex of the copolymer with a peptization system comprising tetraethyl thiuram disulfide and mercaptobenzothiazole. Another significant patent is for "Polychloroprene non-phasing solvent cements," which are designed as non-phasing adhesives that incorporate a unique formulation of chloroprene polymer, phenolic resin, metal oxides, and a specific amount of rosin.
Career Highlights
Fitzgerald has been instrumental in advancing the field of polymer science through his innovative work at Denka Chemical Corporation. His research and development efforts have significantly impacted the efficiency and effectiveness of adhesive technologies. His patented processes have set new standards in product performance, solidifying his reputation as an influential inventor.
Collaborations
Throughout his career, Kenneth has collaborated closely with fellow inventor Edward M. Banta. Their partnership has fostered creativity and propelled advancements in their projects, showcasing the importance of teamwork in the innovation process.
Conclusion
Kenneth D. Fitzgerald continues to be a leading force in polymer innovation, with his work influencing various applications in the industry. His patents signify not only his individual achievements but also the collaborative spirit that drives advancements in technology and science. As he progresses in his career, Fitzgerald remains committed to pushing the boundaries of what is possible in polymer chemistry.