Company Filing History:
Years Active: 2000
Title: The Innovative Work of Mitsuo Mayahara in Hydraulic Material Reinforcement
Introduction
Mitsuo Mayahara, an accomplished inventor based in Okayama Prefecture, Japan, has made significant contributions to the field of materials science. With one patent to his name, he focuses on enhancing hydraulic materials through innovative reinforcing techniques. His work is essential in developing stronger and more durable building materials.
Latest Patents
Mitsuo Mayahara's sole patent, titled "Reinforcing Material for Kneaded and Formed Hydraulic Material," introduces a unique reinforcing material designed for incorporation into hydraulic composites. This revolutionary material consists of fibers with a fineness of 5 d or more, an aspect ratio ranging from 10 to 500, and impressive mechanical properties, including a breaking tenacity of 5 g/d or greater. Furthermore, it offers an elongation percentage of 6-20%, a flexing tenacity utilization factor of 35% or more, and a specific ratio that optimizes performance. This innovation aims to significantly improve the strength and reliability of hydraulic constructions.
Career Highlights
Mitsuo Mayahara is associated with Kuraray Co., Ltd., a forward-thinking company known for its commitment to innovation in material development. His work exemplifies the ongoing efforts in improving the durability of modern construction materials, which is crucial as infrastructures continue to evolve in complexity.
Collaborations
Throughout his career, Mitsuo has collaborated with notable coworkers such as Hisashi Suemori and Toshiaki Ikimine. These partnerships highlight the collaborative spirit within Kuraray Co., Ltd. and the wider engineering community, driving continuous advancements in materials science.
Conclusion
Mitsuo Mayahara stands out as an inventor whose work on hydraulic material reinforcement holds valuable implications for construction and engineering. His patent reflects a blend of innovative thinking and practical application, ultimately contributing to more resilient building materials. As the industry expands, the significance of such inventions will undoubtedly pave the way for the future of construction technology.