Company Filing History:
Years Active: 1976
Title: **Innovative Contributions of Keizo Tamai in Glass Forming Technology**
Introduction
Keizo Tamai, based in Yokohama, Japan, is an esteemed inventor known for his innovative contributions to glass forming technologies. His expertise has led to the development of a unique metal mold that enhances the efficiency and quality of glass articles.
Latest Patents
Tamai holds a significant patent titled "Mold for Forming Glass Articles." This invention features a metal mold characterized by a porous lining layer that provides exceptional heat-insulating properties and high-temperature abrasion resistance. The design ensures that an adequate amount of water can be retained within the lining layer. The materials used for the lining include hollow glass powder and diatomaceous earth, which are renowned for their heat-insulating capabilities, as well as metal and ceramic powders that offer superior abrasion resistance. To secure these materials onto the metal mold, a heat-resistant polymeric adhesive is primarily employed.
Career Highlights
Keizo Tamai is affiliated with Toyo Kohan Co., Ltd., where he has made notable strides in the field of glass manufacturing. His diligent work in research and development has significantly improved the methods used in producing glass articles, thereby setting a new standard in the industry.
Collaborations
Throughout his career, Tamai has had the opportunity to collaborate with talented individuals in the field, including his coworkers Keishi Ohuchi and Kenzo Matsui. These collaborations have promoted innovative thinking and led to further advancements in glass technology.
Conclusion
Keizo Tamai's invention of the mold for forming glass articles represents a significant achievement in the realm of material science and manufacturing. His work at Toyo Kohan Co., Ltd. not only demonstrates his innovative spirit but also highlights the importance of collaboration in fostering technological advancements. As innovations continue to evolve, Tamai’s contributions will undoubtedly serve as a cornerstone for future developments in glass forming technology.