Location History:
- Joetsu, JP (2016)
- Osaka, JP (2016 - 2018)
Company Filing History:
Years Active: 2016-2018
Title: Hayato Kita: Innovator in Material Science
Introduction
Hayato Kita is a prominent inventor based in Osaka, Japan. He has made significant contributions to the field of material science, particularly in the development of advanced clad and titanium materials. With a total of 3 patents to his name, Kita's work showcases his innovative approach to solving complex engineering challenges.
Latest Patents
Kita's latest patents include a novel clad material and a method for producing titanium material. The clad material features outer layers made of nickel or nickel alloy, with a base layer of copper or copper alloy. This material is distinguished by its remarkable resistance to peeling at the clad boundary, even after undergoing a rigorous 90° reverse bend test for ten cycles. It also demonstrates excellent corrosion resistance against electrolytic solutions and high electrical conductivity. His titanium material patent describes a titanium product with superior surface characteristics, achieved through a multilayer structure that includes a titanium oxide surface layer and an inner layer containing titanium carbide or titanium nitride.
Career Highlights
Hayato Kita is currently employed at Nippon Steel & Sumitomo Metal Corporation, where he continues to push the boundaries of material innovation. His work has not only advanced the understanding of clad and titanium materials but has also contributed to the broader field of engineering and manufacturing.
Collaborations
Kita has collaborated with notable colleagues, including Kouichi Takeuchi and Masayuki Shibuya. These partnerships have fostered a collaborative environment that enhances the innovation process and leads to groundbreaking advancements in material science.
Conclusion
Hayato Kita's contributions to material science through his patents and collaborations highlight his role as a key innovator in the field. His work continues to influence the development of advanced materials that meet the demands of modern engineering applications.