Company Filing History:
Years Active: 1976
Title: Clyde Raymond Whitney – Innovator in Sulfidation-Resistant Alloys
Introduction
Clyde Raymond Whitney is a distinguished inventor based in Reading, Pennsylvania. With a remarkable focus on materials engineering, he has made significant contributions to the development of alloys designed for high-performance applications. His inventive prowess is particularly evident in his patented work related to sulfidation-resistant materials.
Latest Patents
Whitney holds a patent for a sulfidation-resistant nickel-iron base alloy. This innovative alloy exhibits high stress-rupture strength at elevated temperatures ranging from 1350°F to 1500°F. The alloy composition includes approximately 0.02-0.08% carbon, 21-26% chromium, 52-58% nickel, 1-3.5% molybdenum, 1.75-3.25% titanium, 0.75-2.25% aluminum, 0.50-2.00% columbium, and up to 0.02% boron, with iron making up the balance. This patent showcases his commitment to advancing material science and enhancing the durability of industrial components.
Career Highlights
Clyde Whitney has dedicated his career to Carpenter Technology Corporation, a leader in the manufacturing of high-performance alloys. His role within the company has allowed him to develop specialized materials that meet industry demands. The patent he holds is a testament to his innovative mindset and technical expertise.
Collaborations
Throughout his career, Whitney has collaborated with notable colleagues, including Donald R. Muzyka. Working alongside other talented professionals has undoubtedly enriched his inventiveness and contributed to the success of his projects within the company.
Conclusion
Clyde Raymond Whitney exemplifies the spirit of innovation in materials engineering. His contributions, particularly through his patented sulfidation-resistant alloy, demonstrate his impact on enhancing the performance and reliability of industrial materials. As he continues his work at Carpenter Technology Corporation, it is clear that Whitney will remain an important figure in the world of advanced materials.