Hidenori Kimpara

Title: Innovations of Hidenori Kimpara: A Pioneer in Curable Resin Composition

Introduction

Hidenori Kimpara is a distinguished inventor based in Tokyo, Japan. With a remarkable portfolio, he has secured three patents, showcasing his expertise in the field of curable resin compositions. His contributions significantly enhance the materials used in various industrial applications.

Latest Patents

Kimpara's most recent patents highlight his innovative approach to curable resin technologies. The first patent details a curable resin composition that comprises a polyphenylene resin, a maleimide compound or cyanate ester compound, and compounds featuring acryloyl, methacryloyl, acryloxy, or methacryloxy groups. This composition is engineered to produce a cured resin with excellent resistance to heat, solvents, moisture, and outstanding adhesive properties.

The second patent introduces a method for delaying the curing rate of resin compositions that include a polyfunctional cyanate ester compound. By incorporating a specific benzene sulfonic acid into the mixture, Kimpara has developed a technique that optimizes the processing of curable resins, thereby broadening their application potential.

Career Highlights

Kimpara is affiliated with Mitsubishi Gas Chemical Company, Inc., where his research focuses on advanced materials and their applications. His work plays a critical role in enhancing product performance and functionality in various sectors, including electronics and automotive industries.

Collaborations

Throughout his career, Hidenori Kimpara has collaborated with esteemed colleagues such as Yoshio Yoshikawa and Akira Amemiya. These partnerships foster innovation and lead to the development of groundbreaking technologies that propel the industry forward.

Conclusion

Hidenori Kimpara stands out as a leading inventor in the realm of curable resin compositions. His patents reflect a deep commitment to innovation and a drive to improve material properties that are essential for modern applications. As he continues to push the boundaries of technology, his work remains influential in shaping the future of resin materials.