Company Filing History:
Years Active: 1999
Title: Hidetada Mima - Innovator in Thermal Spray Coating Technology
Introduction
Hidetada Mima is a notable inventor based in Tokyo, Japan, known for his contributions to thermal spray coating technology. With a patent to his name, Mima has made significant strides in the field of material science, particularly through his innovative methods that enhance coating applications.
Latest Patents
Mima's most recent patent is for a high-speed thermal spray coating method using a copper-based lead bronze. This method involves producing a high-speed flame from a combustion gas, which is then used to spray a thermal spray coating material powder onto the surface of a base material. The innovative aspect lies in the formulation of the coating material, which is a mixed powder consisting of 70-98% volume of copper-based lead bronze alloy powder and 2-30% volume of aluminum powder or aluminum-based alloy powder. This invention has the potential to revolutionize surface treatment processes across various industries.
Career Highlights
Throughout his career, Hidetada Mima has worked diligently at Sulzer Metco Japan Ltd., a leading company in thermal spray coatings and surface technology. His dedication and expertise in this specialized field have positioned him as a valuable asset to his team and the company.
Collaborations
Mima has collaborated with talented coworkers, including Masahiro Nakagawa and Mitsumasa Sasaki, who contribute to the advancement of technology and innovations within their workshops. These collaborations foster a creative environment that propels the development of groundbreaking inventions in thermal spray coating methods.
Conclusion
Hidetada Mima's innovative contributions to thermal spray coating technology highlight the importance of continuous research and development in this field. His work not only represents a personal achievement but also serves as an inspiration for future inventors and researchers. Through his dedication, Mima is advancing material science and enhancing the applications of thermal spray coatings.