Owen B Donahue, Jr

Title: Innovator Owen B Donahue, Jr: Pioneering High-Temperature Refractory Coatings

Introduction: Owen B Donahue, Jr., located in Mystic, CT, has made significant contributions to the field of materials science through his innovative work on high-temperature refractory coatings. With two patents to his name, Donahue is recognized for developing advanced composite materials that enhance the performance and durability of ceramic substrates.

Latest Patents: Donahue’s latest patents focus on the development of high-temperature refractory coatings for ceramic substrates. The first patent describes a composition for manufacturing a composite of a non-oxide ceramic matrix and a refractory phase within the matrix. This includes the use of a preceramic polymer that facilitates the formation of a robust non-oxide ceramic matrix combined with a refractory material. The second patent outlines a composite article that features a substrate coated with a protective layer. This layer comprises a non-oxide ceramic matrix along with a refractory phase to provide enhanced protection and thermal resistance.

Career Highlights: Owen B Donahue, Jr. has built his career at United Technologies Corporation, where he has been instrumental in advancing materials technology. His expertise in high-temperature materials has not only led to patentable inventions but has also contributed to the development of products that meet rigorous industrial standards.

Collaborations: Throughout his career, Donahue has worked closely with notable colleagues, including Wayde R Schmidt and Xia Tang. Their collaborative efforts have helped foster innovation and promote breakthroughs within the realm of advanced ceramics and refractory materials.

Conclusion: Owen B Donahue, Jr. exemplifies the spirit of innovation in materials science through his patents and collaborative work at United Technologies Corporation. His contributions to high-temperature refractory coatings have the potential to significantly impact various industries, demonstrating the importance of continued research and development in advanced materials.