Company Filing History:
Years Active: 1984-1985
Title: Inventor Spotlight: Edward C Hsu
Introduction
Edward C Hsu, an innovative inventor based in Pittsburgh, PA, has made significant contributions to the field of materials science through his patent work. With a total of two patents, his research primarily focuses on advancing the use of treated glass fibers, particularly concerning their dispersibility in aqueous media.
Latest Patents
Hsu's latest patents showcase his expertise in enhancing glass fibers. One notable innovation involves treated glass fibers that are engineered for improved dispersibility in aqueous solutions. These glass fibers undergo treatment with a specialized composition that includes both a nonionic surfactant and a cationic quaternary ammonium salt surfactant. The treated fibers are able to maintain robust dispersibility, enabling their effective use in various applications. Additionally, the treated glass fibers can be produced in varying lengths, significantly ranging from 1/16 of an inch to about 3 inches, catering to diverse industrial needs.
Career Highlights
Edward C Hsu's career is marked by his association with PPG Industries, Inc., a leading player in the materials and coatings industry. His work at PPG Industries is a testament to his commitment to innovation, contributing to the advancement of products that rely on high-quality glass fiber materials.
Collaborations
Throughout his career, Hsu has worked closely with notable colleagues, including Chester S Temple. These collaborations have likely fostered a dynamic environment for creative thinking and innovation, which is essential in driving advancements in materials science.
Conclusion
In summary, Edward C Hsu's contributions to the field of treated glass fibers reflect his dedication to improving materials and their applications. With patents that enhance the performance of glass fibers in aqueous media, Hsu stands out as a prominent inventor in his field. His ongoing work at PPG Industries, alongside collaborations with industry peers, continues to influence advancements in material technologies.