Company Filing History:
Years Active: 1998
Title: Michael W. Harville: Innovator in Weld-Quality Control
Introduction
Michael W. Harville is a notable inventor based in Austin, TX, recognized for his contributions to the field of welding technology. He holds 2 patents that focus on improving weld-quality control and cooling rates for metal alloys. His work has significant implications for industries that rely on precise welding techniques.
Latest Patents
One of Harville's latest patents is titled "Method and apparatus for real-time weld-quality control and post-process." This invention provides a method and apparatus to control and verify weld-quality in a homopolar pulsed weld by measuring in-process parameters. The system includes methods for real-time weld-quality control and post-process verification, ensuring that the resulting weld meets quality standards.
Another significant patent is the "Method for determining and controlling the cooling rate for metal alloys." This system incorporates a homopolar generator and a hydraulic uniaxial press to hold the metal alloys during welding. It outlines a method for determining and controlling the cooling rate of metal alloy pipes in an electrical resistance welding process, which is crucial for achieving desired metallurgical properties.
Career Highlights
Michael W. Harville is affiliated with the University of Texas System, where he applies his expertise in welding technology. His innovative approaches have contributed to advancements in the field, particularly in enhancing the quality and efficiency of welding processes.
Collaborations
Harville has collaborated with notable colleagues, including Robert W. Carnes and Paul W. Haase. Their combined efforts have furthered research and development in welding technologies.
Conclusion
Michael W. Harville's contributions to welding technology through his patents and collaborations highlight his role as an innovator in the field. His work continues to influence the standards of weld-quality control and cooling rate management in metal alloys.