Company Filing History:
Years Active: 1981-1984
Title: Akinori Noda: Innovator in Coating Technology
Introduction
Akinori Noda, an inventor based in Yokohama, Japan, has made significant contributions to the field of coating technology. With a total of two patents to his name, Noda's work focuses on advanced compositions and processes that enhance the durability and utility of molded products.
Latest Patents
Noda's latest patents include an innovative alkyl ether methylolmelamine coating composition and a refined coating process. The first patent introduces a coating composition that utilizes an organic solvent-soluble resin and an insoluble resin, blended with ceramic or metallic powders. This combination is further enhanced with a plasticizer and desired additives. The molded product resulting from this process is treated with an organic solvent to dissolve the soluble components before being fired. This meticulous approach ensures that the final molded ceramic or metal product exhibits high density, minimal cracking, and no deformation—a significant advancement in material engineering.
Career Highlights
Akinori Noda works at Asahi Glass Company, Limited, a prominent player in the glass and coatings industry. His expertise in developing new materials and processes has positioned him as a valuable asset in his field. Noda’s dedication to innovation and quality is evident in his patent filings and the subsequent advancements in coating applications.
Collaborations
Throughout his career, Noda has collaborated with notable colleagues, including Ichiro Henmi and Takuro Ono. These partnerships have fostered an environment of creativity and shared knowledge, driving the collective progress in coating technologies within Asahi Glass Company.
Conclusion
Akinori Noda stands out as a pioneering inventor in the realm of coating technology. His innovative patents and collaborative spirit continue to influence the industry, making substantial strides toward improving material properties and manufacturing processes. As innovations in this field evolve, Noda's contributions will remain integral to its advancement.