Company Filing History:
Years Active: 1979-2025
Title: Ryuichi Kimura - Innovator in Photodegradable Rubber Technology
Introduction
Ryuichi Kimura, a notable inventor based in Kyoto, Japan, has made significant contributions to the field of materials science, particularly in the development of photodegradable rubber products. His inventive spirit and dedication to innovation are exemplified by his patented technology that enhances the sustainability of rubber materials.
Latest Patents
One of Ryuichi Kimura's key patents is titled "Radiation process for producing 1,2-polybutadiene foamed products." This innovative process involves mixing 1,2-polybutadiene with a specific percentage of a photosensitizer and a thermally decomposable foaming agent. The method includes irradiating the mixture with ultraviolet rays, creating a cross-linked material with desirable properties. Notably, the foaming agent used in preferred embodiments is p,p'-oxybis (benzenesulfonylhydrazide), which contributes to the final product's excellent softness and performance.
Career Highlights
Ryuichi Kimura is currently associated with Takiron Co., Ltd., where he continues his work on innovative materials. His career is marked by a commitment to advancing rubber technology that addresses environmental concerns while improving product functionality.
Collaborations
Throughout his career, Ryuichi has collaborated with fellow researchers such as Yasuo Shikinami and Yoshinobu Yoshikawa. These partnerships have been instrumental in refining his innovations and bringing new ideas to fruition, fostering a culture of collaboration and knowledge sharing within the industry.
Conclusion
Ryuichi Kimura's work in the domain of photodegradable rubber products highlights the potential for innovation in materials science. His patented processes signify a step toward more sustainable manufacturing practices, making him an influential figure in the development of environmentally friendly materials. As the demand for sustainability grows, Ryuichi's contributions will likely continue to inspire future innovations in this vital field.