Company Filing History:
Years Active: 1987
Title: Richard L. Shott: Innovator in Cubic Boron Nitride Technology
Introduction
Richard L. Shott, an accomplished inventor based in Columbus, OH, has made notable contributions to the field of material science, particularly with his work on cubic boron nitride (CBN). His innovations are critical to advancements in cutting tool technology and abrasives, showcasing his expertise in materials engineering.
Latest Patents
Richard L. Shott holds a patent for a method involving re-sintered boron-rich polycrystalline cubic boron nitride. This patent discloses a process for creating polycrystalline CBN compacts, which entails placing sintered boron-rich polycrystalline CBN particles into a high temperature/high pressure apparatus. The method requires subjecting these particles to a pressure and temperature that allows for re-sintering without exceeding the reconversion temperature of CBN. The innovative process ensures that the boron-rich particles remain free from impurities that could inhibit the sintering process, thus enhancing the material's performance.
Career Highlights
Throughout his career, Richard L. Shott has been associated with General Electric Company, where he has significantly contributed to research and development in advanced materials. His work has led to the enhancement of various industrial applications, particularly in manufacturing processes that utilize CBN for cutting and grinding.
Collaborations
In his pursuit of innovation, Richard has collaborated with esteemed colleagues such as Thomas R. Lavens and Francis R. Corrigan. These partnerships have fostered an environment of creativity and scientific inquiry, allowing for the exploration of new techniques and methodologies in material synthesis and application.
Conclusion
Richard L. Shott stands as a pivotal figure in the realm of material science, particularly through his groundbreaking work on boron-rich polycrystalline cubic boron nitride. His contributions not only advance technological capabilities but also demonstrate the significant potential of innovative materials in diverse industrial applications.