Company Filing History:
Years Active: 2001
Title: Charles Robert Banning: Innovator in Metal Matrix Composites
Introduction
Charles Robert Banning is a notable inventor based in Newark, DE (US). He has made significant contributions to the field of materials science, particularly in the development of methods for manufacturing castable metal matrix composite bodies. His innovative approach has the potential to enhance the efficiency and effectiveness of composite materials in various applications.
Latest Patents
Banning holds a patent for a method titled "Method for manufacturing castable metal matrix composite bodies." This invention relates to a novel technique for forming or recycling metal matrix composite bodies, allowing for the casting or recasting of these materials. The process involves placing a scrap metal matrix composite body into a crucible, where it can be combined with unreinforced matrix metal or virgin metal matrix composite material. The contents are then rendered molten, and high shearing rates are applied to improve the fluidity and mechanical properties of the composite melt. This innovative method addresses the challenges associated with inclusions in the composite material, ultimately leading to improved casting outcomes.
Career Highlights
Banning is associated with Lanxide Technology Company, LP, where he has been instrumental in advancing the company's research and development efforts in composite materials. His work has contributed to the company's reputation as a leader in the field of metal matrix composites.
Collaborations
Some of Banning's notable coworkers include John T Burke and Alan S Nagelberg. Their collaborative efforts have furthered the research and development of innovative materials and processes within the company.
Conclusion
Charles Robert Banning's contributions to the field of metal matrix composites exemplify the spirit of innovation and dedication to advancing technology. His patented method for manufacturing castable metal matrix composite bodies showcases his expertise and commitment to improving material performance.