Company Filing History:
Years Active: 1983
Title: Kanichi Kamiya: Innovations in Glass Production
Introduction
Kanichi Kamiya, an inventive mind from Mie, Japan, has made significant contributions to the field of glass production through his innovative patent. With a focus on enhancing the efficiency and uniformity of silica glass production, his work demonstrates a fusion of chemical ingenuity and practical application.
Latest Patents
Kamiya holds a patent for a method of producing glass from a metal alkoxide solution. This unique process involves creating silica glass that can include additional metals such as titanium (Ti) or zirconium (Zr). The method combines a silicon alkoxide solution with the necessary alkoxides of the additional metals, alongside water and a hydrophilic organic solvent. By shaping the solution into various forms such as coating films, self-supporting films, fibers, or lumps when achieving a suitably high viscosity, Kamiya has significantly optimized the production process. Moreover, the incorporation of a water-soluble organic polymeric substance as a viscosity adjusting agent, preferably hydroxypropyl cellulose, allows for timely shaping of the solution without delaying for the hydrolysis of the alkoxide, ultimately achieving glass with improved uniformity in its properties.
Career Highlights
Kanichi Kamiya is associated with Central Glass Company, Limited, where he continues to innovate within the industry. His contributions reflect a deep understanding of materials science and chemical engineering, driving advancements in glass manufacturing techniques.
Collaborations
Kamiya collaborates with talented individuals such as Michiharu Mishima and Yuji Yamamoto. Their teamwork exemplifies the spirit of innovation at Central Glass Company and showcases collective expertise in developing cutting-edge glass technologies.
Conclusion
Through his pioneering work, Kanichi Kamiya is leaving a remarkable mark on the glass production industry. His patented methods not only advance technological capabilities but also set a standard for future innovations in materials science. As glass continues to be a cornerstone in numerous sectors, the impact of Kamiya’s contributions will surely resonate for years to come.