Company Filing History:
Years Active: 1988-2006
Title: Innovations of James F Rhodes in Silicon Carbide Fiber Technology
Introduction
James F Rhodes is a notable inventor based in Greer, SC (US), recognized for his contributions to the field of materials science, particularly in the development of silicon carbide fibers. With a total of 7 patents to his name, Rhodes has made significant advancements that enhance the performance and application of these materials.
Latest Patents
Rhodes' latest patents include a groundbreaking process for producing silicon carbide fibers that are essentially devoid of whiskers. This method involves mixing discontinuous isotropic carbon fibers with a silica source and exposing the mixture to temperatures ranging from about 1450°C to about 1800°C. The resulting silicon carbide fibers exhibit excellent resistance to oxidation and a remarkable response to microwave energy. These fibers can be readily formed into a ceramic medium using conventional ceramic technology and are also suitable for reinforcing plastics and metals.
Another significant patent by Rhodes focuses on silicon carbide fibers that are produced through a similar process. These fibers maintain their advantageous properties, including excellent oxidation resistance and microwave energy response, making them versatile for various applications in advanced materials.
Career Highlights
James F Rhodes is currently associated with Advanced Composite Materials Corporation, where he continues to innovate and develop advanced materials. His work has positioned him as a key figure in the field of composite materials, contributing to the advancement of technology in this area.
Collaborations
Rhodes has collaborated with notable colleagues such as William M Rogers and Chester J Dziedzic, further enhancing the impact of his work in the industry.
Conclusion
James F Rhodes stands out as a pioneering inventor in the realm of silicon carbide fiber technology. His innovative processes and patents have paved the way for advancements in material science, showcasing the potential of silicon carbide fibers in various applications.