Company Filing History:
1 out of 832,912 Years Active: 2003
Title: Innovations of Yoshiyuki Hamahashi in Conductive Elastomers
Introduction
Yoshiyuki Hamahashi is a notable inventor based in Osaka, Japan. He has made significant contributions to the field of materials science, particularly in the development of conductive elastomers. His innovative work focuses on enhancing the reliability and mechanical characteristics of these materials.
Latest Patents
Hamahashi holds a patent for a "Deformable Conductive Elastomer and Manufacturing Method Thereof." This invention presents a deformable conductive elastomer that excels in reliability, linearity, and mechanical characteristics. The patent describes a method where elastomer particles with a particle size of 10 through 300 µm and conductive particles with a particle size of 10 through 40 µm are almost uniformly dispersed in a non-conductive elastomer. Additionally, ceramic particles with a particle size of 1000 nm or less are also uniformly dispersed in the non-conductive elastomer. The process involves adding the non-conductive elastomer, elastomer particles, and conductive particles to a dispersion medium, followed by vibration, mixing, and drying to achieve crosslinking of the uncrosslinked non-conductive elastomer.
Career Highlights
Throughout his career, Yoshiyuki Hamahashi has focused on advancing the field of conductive materials. His innovative approaches have led to the development of new manufacturing methods that enhance the performance of elastomers. His work is recognized for its practical applications in various industries.
Collaborations
Hamahashi has collaborated with notable professionals in his field, including Koichi Niihara and Yong-Ho Choa. These collaborations have contributed to the advancement of research and development in conductive elastomers.
Conclusion
Yoshiyuki Hamahashi's contributions to the field of conductive elastomers demonstrate his commitment to innovation and excellence. His patent for a deformable conductive elastomer showcases his ability to combine reliability with advanced manufacturing techniques. His work continues to influence the materials science industry.