Company Filing History:
1 out of 832,912 Years Active: 2004
Title: Inventor Toshihiro Iguro: Innovating Conductive Fibers
Introduction
Toshihiro Iguro, an innovative inventor based in Hofu, Japan, has made significant contributions to the field of materials science. His work primarily focuses on developing advanced conductive fibers, which have various applications in industries ranging from textiles to electronics.
Latest Patents
Iguro holds a patent for a unique core-sheath composite conductive fiber. This invention features a sheath component made of a fiber-forming polymer that incorporates conductive carbon black. The invention is characterized by a specific relationship between the radius of the sheath component's inscribed circle and the distance between the centers of the core and sheath components. The core component is made of polyester, specifically ethylene terephthalate, while the sheath component comprises a mixture of a copolyester with carbon black. The versatility of this conductive fiber allows it to be utilized in various applications, including special working clothes such as dust-free garments and interior products like carpets.
Career Highlights
Throughout his career, Toshihiro Iguro has demonstrated a strong commitment to advancing material innovation. His pioneering work in conductive fibers has positioned him as a notable figure in his field. With his foundational research, he has contributed to the enhancement of textiles that meet modern demands for conductivity and functionality.
Collaborations
Iguro collaborates with esteemed colleagues, including Masayuki Miyamoto and Shigeki Honda. Together, they focus on pushing the boundaries of materials science and exploring new opportunities in the realm of conductive materials.
Conclusion
Toshihiro Iguro represents the spirit of innovation in the field of conductive fibers. His patent for the core-sheath composite conductive fiber not only showcases his ingenuity but also highlights the potential applications in various industries. As he continues to work alongside his collaborators, the future of conductive materials looks promising.