Company Filing History:
2 out of 10,264 
1 out of 553 Years Active: 1996-2008
Title: The Innovative Mind of Katsuyuki Kawate
Introduction
Katsuyuki Kawate, an inventor based in Itami, Japan, has made significant contributions to the field of synthetic diamond technology. With his work primarily focusing on diamond tools and high-quality synthetic single crystal diamonds, he has secured two notable patents that mark his innovative approach in this specialized area.
Latest Patents
Kawate's recent patents include a diamond tool and a method for synthesizing synthetic single crystal diamonds. His technology utilizes the properties of synthetic single crystal diamonds with a nitrogen content of 3 ppm or less, which exhibit enhanced hardness specifically in the (100) plane along the <111> direction while simultaneously reducing defects. This cutting-edge synthetic diamond is produced using a temperature difference method under ultra high pressure and high temperature conditions, incorporating nickel and boron into its crystal lattice through atomic substitution. Additionally, he has developed diamond jewelry that showcases the practical applications of these advancements.
Career Highlights
Throughout his career, Kawate has been associated with prominent companies such as Sumitomo Electric Industries Limited and Sumitomo Electric Hardmetal Corporation. His involvement in these organizations has allowed him to further refine his expertise in manufacturing and technology related to synthetic diamonds and tools.
Collaborations
Kawate has collaborated with notable individuals in the field, including his coworkers Hitoshi Sumiya and Shuichi Sato. These collaborations have fostered a dynamic environment for innovation, significantly contributing to the advancements in the synthetic diamond technology that he is known for.
Conclusion
Katsuyuki Kawate's inventive spirit and dedication to developing synthetic diamond tools and diamonds highlight his important role in enhancing materials used across various industries. His inventions not only advance technological capabilities but also demonstrate the potential of utilizing synthetic diamonds to achieve superior performance in applications where hardness and precision are paramount.