Company Filing History:
Years Active: 2006
Title: Shujiro Uesaka: Innovator in Sintered Body Manufacturing
Introduction
Shujiro Uesaka is a prominent inventor based in Yasugi, Japan. He is known for his significant contributions to the field of materials science, particularly in the manufacturing of sintered bodies. His innovative approach has led to advancements that benefit various industrial applications.
Latest Patents
Uesaka holds a patent for a method of manufacturing a sintered body. This method involves sealing a material powder composed of metallic or alloy powder, a getter material with a higher oxidation potential, and a hydride as a hydrogen source under reduced pressure in a metallic container. The process includes pressurized sintering while being heated, maintaining the metallic container at a pressure not exceeding 50 MPa and a temperature of at least 500°C for a duration of 1 to 50 hours. Following this, the metallic and alloy powders are sintered at pressures above 50 MPa and temperatures not exceeding 1340°C. Uesaka's innovative method enhances the efficiency and quality of sintered products.
Career Highlights
Shujiro Uesaka is associated with Hitachi Metals, Ltd., where he has made significant strides in his field. His work has not only contributed to the company's reputation but has also advanced the technology used in manufacturing sintered bodies. Uesaka's expertise and innovative mindset have positioned him as a key figure in materials engineering.
Collaborations
Uesaka has collaborated with notable colleagues, including Gang Han and Tomonori Ueno. These partnerships have fostered a collaborative environment that encourages innovation and the sharing of ideas, further enhancing the development of new technologies in their field.
Conclusion
Shujiro Uesaka's contributions to the manufacturing of sintered bodies exemplify the impact of innovation in materials science. His patented method represents a significant advancement in the industry, showcasing his dedication to improving manufacturing processes. Uesaka's work continues to influence the field and inspire future innovations.