Company Filing History:
Years Active: 2018
Title: Jyunichi Nakayama: Innovator in Electro-Conductive Adhesive Technologies
Introduction
Jyunichi Nakayama is a notable inventor based in Ibaraki, Japan, recognized for his contributions to the field of adhesive technologies. With a focus on enhancing the functionality of electronic components, Nakayama has successfully obtained a patent that highlights his innovative spirit and technical expertise.
Latest Patents
Nakayama's most recent patent is centered around an electro-conductive pressure-sensitive adhesive tape, which plays a crucial role in electronic applications. This innovative adhesive tape contains a pressure-sensitive adhesive layer that blends a resin component with electro-conductive particles. The unique feature of these particles is their specific size distribution: they have peaks in the particle size range of approximately 15 µm to 50 µm, and another range from about 1 µm to 12 µm. The formulation includes 40 mass % to 80 mass % of these electro-conductive particles, which provide the adhesive tape with its conductive properties while maintaining a true density that is greater than zero but less than 8 g/cm³.
Career Highlights
Jyunichi Nakayama currently works at Nitto Denko Corporation, a reputable company well-known for its advancements in adhesive and sealing technologies. His work at the company has contributed significantly to the development of innovative adhesive products that find applications across various industries, particularly in electronics.
Collaborations
Throughout his career, Nakayama has collaborated with talented individuals like Shu Sasaki and Rie Yuto. These collaborations have allowed for a fusion of ideas and expertise, ultimately leading to the successful development of innovative solutions that push the boundaries of adhesive technologies.
Conclusion
Jyunichi Nakayama stands out as a commendable inventor in the realm of electro-conductive materials. His patent for the electro-conductive pressure-sensitive adhesive tape showcases his commitment to innovation and excellence. As technology continues to evolve, Nakayama's contributions will likely remain influential in the fields of electronics and material science.