Company Filing History:
Years Active: 1992-1998
Title: Innovations by Thomas M. Frick
Introduction
Thomas M. Frick is an accomplished inventor based in North Huntingdon, PA (US). He has made significant contributions to the field of vibration dampening technology, holding 2 patents that showcase his innovative approach to solving engineering challenges. His work primarily focuses on enhancing the stability and performance of tubular structures subjected to vibrations.
Latest Patents
Frick's latest patents include an "Apparatus for Attenuating Vibration of a Tubular Member" and a "Tube Vibration Dampener and Stiffener Apparatus and Method." The first patent describes a system that utilizes a cable and spaced-apart attenuating assemblies to dampen vibrations within a tube. This design not only reduces vibration but also adds rigidity to the tube, enhancing its stability. The second patent outlines a method for increasing the dampening and stiffness of a tube experiencing flow-induced vibrations. By employing flexible braided cables, the apparatus dissipates vibration energy, thereby reducing the amplitude of vibrations and improving the overall performance of the tube.
Career Highlights
Thomas M. Frick is currently employed at Westinghouse Electric Corporation, where he applies his expertise in vibration control technologies. His innovative designs have the potential to significantly impact various industries that rely on tubular structures, such as aerospace and automotive engineering.
Collaborations
Frick has collaborated with notable colleagues, including David J. Fink and Stephen M. Ira, who share his commitment to advancing engineering solutions. Their combined efforts contribute to the development of cutting-edge technologies that address complex challenges in vibration management.
Conclusion
Thomas M. Frick's contributions to vibration dampening technology exemplify the spirit of innovation in engineering. His patents reflect a deep understanding of the challenges faced by tubular structures and offer practical solutions to enhance their performance.