Company Filing History:
Years Active: 2019
Title: Nobuaki Tanaka: Innovator in Rubber-Metal Laminated Gasket Materials
Introduction
Nobuaki Tanaka is a prominent inventor based in Fukushima, Japan. He is known for his innovative contributions to the field of gasket materials, particularly through his patented work on rubber-metal laminated gaskets. His inventions have significantly impacted industrial applications, showcasing his expertise and dedication to advancing material technology.
Latest Patents
Nobuaki Tanaka holds a patent for a rubber-metal laminated gasket material. This invention comprises a metal plate, a surface treating agent layer, an adhesive layer, and a rubber layer, all sequentially laminated on the metal plate. The surface treating agent layer is applied to achieve a coating amount of 30 to 1,000 mg/m, ensuring that the surface treating agent is free from chromium. The composition includes a mixing ratio of 20 to 90 wt. % of a fluorine-free titanium compound and 10 to 80 wt. % of alumina, with a metal titanium content of 1 to 20 wt. %. This innovative gasket material exhibits excellent LLC resistance under high-temperature conditions, making it suitable for various demanding applications.
Career Highlights
Nobuaki Tanaka is associated with Nok Corporation, where he has made significant strides in developing advanced gasket materials. His work has not only contributed to the company's reputation but has also positioned him as a key figure in the field of material science. With a focus on innovation, he continues to explore new possibilities in gasket technology.
Collaborations
Nobuaki Tanaka collaborates with talented individuals such as Takeshi Sato and Katsumi Abe. Their combined expertise fosters a creative environment that drives innovation and enhances the development of new materials.
Conclusion
Nobuaki Tanaka's contributions to the field of rubber-metal laminated gasket materials exemplify his commitment to innovation and excellence. His patented work not only showcases his technical skills but also highlights the importance of collaboration in advancing material technology.