Company Filing History:
Years Active: 1988
Title: Innovator Masafumi Dobashi: Pioneering Asphalt-Blended Polyurethane Foams
Introduction
Masafumi Dobashi, a distinguished inventor based in Kanagawa, Japan, has made significant strides in the field of materials science. With a dedication to innovation, Dobashi holds a patent for a unique process that contributes to the efficiency and effectiveness of asphalt-blended polyurethane foams.
Latest Patents
Dobashi's patent, titled "Process for Producing Asphalt-Blended Polyurethane Foams," is a groundbreaking method that involves the introduction of starting foaming materials containing polyoxyalkylene polyols and organic isocyanates into a foaming apparatus. This process combines these materials with heated and melted asphalt, leading to efficient production of asphalt-blended foams. The resultant foams showcase remarkable physical properties, sound and vibration characteristics, making them suitable for use as sealing materials as well as sound-proofing and vibration-damping applications.
Career Highlights
Currently, Dobashi is associated with the Bridgestone Corporation, where his expertise contributes to the company's efforts in innovative material development. His career trajectory reflects a commitment to advancing technology in the materials domain, particularly in creating solutions that enhance performance and durability in applications across various industries.
Collaborations
Throughout his career, Masafumi Dobashi has collaborated with talented coworkers such as Masayuki Ako and Hiroya Fukuda. These collaborations have fueled creative ideas and driven collective efforts toward developing cutting-edge solutions in materials science.
Conclusion
Masafumi Dobashi’s contributions through his patent on asphalt-blended polyurethane foams serve as a testament to his innovative spirit and dedication to enhancing material properties. As he continues to develop and collaborate on new projects within Bridgestone Corporation, the impact of his work is poised to benefit various sectors that utilize these advanced materials.