Company Filing History:
Years Active: 1995
Title: The Innovative Work of Thomas M. Gately in Cooling Technologies
Introduction: Thomas M. Gately is a notable inventor based in Cincinnati, Ohio, recognized for his contributions to cooling technologies. With a patent to his name, Gately has made significant strides in the field of workpiece cooling methods that enhance the integrity and mechanical properties of engineering materials.
Latest Patents: Gately holds a patent titled "Method and apparatus for cooling a workpiece." This innovative method involves cooling a workpiece at selected locations based on predetermined heat flux. The patent details a sophisticated approach to controlling a cooling fluid, which is directed to follow the workpiece surface under specific convective cooling parameters. These parameters include the direction, mass flow rate, and velocity of the cooling fluid, tailored to achieve a desired cooling rate crucial for maintaining workpiece integrity and optimizing its microstructure and mechanical properties.
Career Highlights: Gately's career is closely associated with General Electric Company, where he has applied his expertise in thermal management technologies. His work has evidently contributed to advancements in manufacturing processes that require precision cooling techniques, showcasing his commitment to innovation in engineering.
Collaborations: Throughout his career, Gately has collaborated with notable colleagues such as Dennis G. King and Robert Gerard Baran. These collaborations reflect a synergistic approach to innovation, where shared knowledge and expertise drive the development of advanced cooling technologies.
Conclusion: Thomas M. Gately stands out not just for his innovative patent, but also for his role at General Electric Company, where he continues to influence the landscape of cooling technologies. His work is a testament to the importance of innovation in achieving mechanical advancements and improving industrial processes. As his career progresses, Gately's contributions will likely continue to resonate within the field of engineering and patents.