Location History:
- Shizuoka, JP (2009 - 2012)
- Sunto-gun, JP (2012)
Company Filing History:
Years Active: 2009-2012
Title: Taro Oyama: Innovator in Carbon Fiber Technology
Introduction
Taro Oyama is a prominent inventor based in Shizuoka, Japan, known for his significant contributions to the field of carbon fiber technology. With a total of four patents to his name, Oyama has developed innovative methods that enhance the production and quality of carbon fibers, making them suitable for high-performance composite materials.
Latest Patents
Oyama's latest patents include a method of producing pre-oxidation fiber and carbon fiber. This method involves subjecting a polyacrylic precursor fiber to pre-oxidation processing in an oxidizing atmosphere. The process includes shrinking the precursor fiber as a pretreatment at specific loads and temperatures, ensuring that the degree of cyclization does not exceed certain limits. This innovative approach results in a carbon fiber of high strength and elasticity, ideal for composite materials that require superior performance. Another notable patent is for a carbon fiber strand produced by bundling 20,000-30,000 carbon fibers, which exhibit unique surface characteristics and exceptional tensile strength and modulus.
Career Highlights
Taro Oyama is currently employed at Toho Tenax Co., Ltd., a leading company in the field of advanced materials. His work at the company has allowed him to focus on the development of high-performance carbon fibers, contributing to advancements in various industries, including aerospace and automotive.
Collaborations
Throughout his career, Oyama has collaborated with notable colleagues such as Hiroshi Kimura and Hidekazu Yoshikawa. These collaborations have fostered a creative environment that encourages innovation and the sharing of ideas, further enhancing the development of carbon fiber technologies.
Conclusion
Taro Oyama's contributions to carbon fiber technology have positioned him as a key figure in the field. His innovative patents and collaborative efforts continue to drive advancements in high-performance materials, showcasing the importance of research and development in this area.