Company Filing History:
Years Active: 1994-1997
Title: Innovations by Timothy P. Fuesting
Introduction
Timothy P. Fuesting is an accomplished inventor based in Lynchburg, Virginia. He has made significant contributions to the field of superalloy technology, holding two patents that showcase his expertise and innovative spirit. His work primarily focuses on processes that enhance the performance and reliability of superalloy materials.
Latest Patents
Fuesting's latest patents include a "Superalloy Forging Process" and a "Cyclic Heat Treatment for Controlling Grain Size of Superalloy Castings." The superalloy forging process involves producing a fine grain forged superalloy article with high yield strength at intermediate temperatures. The preferred starting composition includes various elements such as chromium, cobalt, molybdenum, titanium, aluminum, carbon, boron, zirconium, and nickel. This material is forged at specific temperatures and strains to achieve desired properties. The cyclic heat treatment patent addresses the heat treatment of superalloy castings with large variations in section thickness. This process utilizes a cyclic stress relief procedure to relieve residual stresses and dissolve second phase particles, enhancing the material's performance.
Career Highlights
Timothy P. Fuesting is currently employed at United Technologies Corporation, where he continues to innovate and develop advanced materials. His work has significantly impacted the aerospace and defense industries, where superalloys are critical for high-performance applications.
Collaborations
Fuesting has collaborated with notable colleagues, including William J. Gostic and Roy L. Athey. These partnerships have fostered a collaborative environment that encourages the exchange of ideas and advancements in superalloy technology.
Conclusion
Timothy P. Fuesting's contributions to superalloy technology through his patents and collaborations highlight his role as a leading inventor in the field. His innovative processes continue to push the boundaries of material science, ensuring enhanced performance in critical applications.