Thomas P Diebold

Title: Innovations of Thomas P Diebold

Introduction

Thomas P Diebold is an accomplished inventor based in Tucson, AZ. He holds two patents that showcase his expertise in the field of engineering and innovation. His work primarily focuses on advanced welding technologies, particularly in the area of friction welding.

Latest Patents

One of his latest patents is a friction welder designed to efficiently weld a first element to a second element. This apparatus includes a forge assembly with a table that defines a platform, a crank, a forge link, and a reaction link positioned oppositely of the forge link. The design minimizes bending in the forge and motion planes, enhancing the repeatability of the welds performed. In a specific embodiment, this friction welder can be utilized to form integrally bladed rotors. It features a reciprocal motion assembly that generates motion between the elements being welded, along with a gripper and a base tool. The reciprocal motion assembly is equipped with a servo hydraulic actuator that has a hydraulic column frequency greater than the frequency of reciprocation. The gripper is specifically designed for bonding an airfoil to the rotor, while the base tool is used for mounting and positioning the rotor during bonding operations.

Career Highlights

Thomas P Diebold is currently employed at United Technologies Corporation, where he continues to contribute to innovative engineering solutions. His work has significantly impacted the field of welding technology, particularly in applications that require precision and reliability.

Collaborations

Throughout his career, Thomas has collaborated with notable colleagues, including Antonio B Caruolo and Francis J Yopak. These collaborations have further enriched his work and contributed to advancements in their shared field of expertise.

Conclusion

Thomas P Diebold is a prominent inventor whose contributions to friction welding technology have made a significant impact in engineering. His innovative designs and collaborative efforts continue to push the boundaries of what is possible in the field.