Location History:
- Osaka-fu, JP (2003)
- Osaka, JP (2004)
Company Filing History:
Years Active: 2003-2004
Title: Innovations by Hideyuki Takeuchi
Introduction
Hideyuki Takeuchi is a notable inventor based in Osaka-fu, Japan. He has made significant contributions to the field of materials science, particularly in the development of water-borne urethane resin compositions. With a total of 3 patents to his name, Takeuchi's work has implications for various applications, including artificial leather production.
Latest Patents
Takeuchi's latest patents include a water-borne urethane resin composition for forming a microporous layer, a method of producing fibrous sheet-like composites, and an artificial leather. The water-borne urethane resin composition is designed to be used in fibrous material substrates, especially artificial leather. It possesses well-defined heat-sensitive coagulation properties, allowing it to be uniformly filled into substrates without migration. This innovation results in a microporous layer after drying, providing an elastic and genuine feel similar to that of solvent-based urethane resin compositions. The method for producing a fibrous sheet-like composite involves impregnating or coating a fibrous material substrate with the water-borne resin composition and performing heat-sensitive coagulation using steam.
Career Highlights
Takeuchi is currently employed at Dainippon Ink and Chemicals, Incorporated, where he continues to innovate in the field of urethane resins. His work has been instrumental in advancing the technology behind synthetic materials, particularly in enhancing their properties and applications.
Collaborations
Some of Takeuchi's coworkers include Hiroki Tanaka and Yasuhiro Matsumoto. Their collaborative efforts contribute to the ongoing research and development in the field of materials science.
Conclusion
Hideyuki Takeuchi's contributions to the field of materials science, particularly through his innovative patents, highlight his role as a significant inventor in Japan. His work continues to influence the development of advanced materials for various applications.