Company Filing History:
Years Active: 1988
Title: The Innovative Mind of Thomas J Radzavich
Introduction
Thomas J Radzavich, an inventor based in Higganum, CT, has made significant strides in the field of engineering with his patented invention. His unique approach to solving problems in turbine engine technology has garnered attention for its innovative application of plasma spraying techniques.
Latest Patents
One of his notable patents is titled "Method for preventing closure of cooling holes in hollow, air cooled." This invention specifically addresses the challenges faced during the coating process of hollow, air cooled blades or vanes commonly used in turbine engines. The patented method utilizes fugitive plugs to ensure that coating material does not deposit within the critical cooling holes, thereby maintaining their functionality. The plugs are removed post-coating, ensuring that the holes remain open and unobstructed.
Career Highlights
Thomas Radzavich currently works at United Technologies Corporation, a leading entity in aerospace and building systems. His work has contributed to advancements in turbine technology, promoting efficiency and reliability in high-temperature environments. Over his career, Radzavich has demonstrated a commitment to innovation, seeking ways to enhance the performance of components used in critical applications.
Collaborations
During his career, Radzavich has collaborated with esteemed colleagues, including Donald G Nordstrom and Keith Douglas Sheffler. Together, this group has worked on various projects that enhance the engineering and manufacturing processes, resulting in numerous advancements within the industry.
Conclusion
Thomas J Radzavich exemplifies the spirit of innovation in engineering. His contributions, particularly through his patented method for coating turbine engine components, showcase the importance of creativity and problem-solving in technology. As a member of United Technologies Corporation, he continues to impact the field significantly, paving the way for future advancements in aerospace engineering.