John A Wagner

Title: Innovations by John A. Wagner in Metal Matrix Composites

Introduction: John A. Wagner is an accomplished inventor based in Newport News, VA, recognized for his innovative contributions to the field of materials science. With a focus on enhancing the mechanical properties of metallic structures, he has developed a significant patent that showcases his expertise and inventive spirit.

Latest Patents: Wagner holds a patent titled "In-situ selective reinforcement of near-net-shaped formed structures." This invention introduces methods for incorporating a metal matrix composite (MMC) material into a metallic structure during a one-step near-net-shape structural forming process. The patent describes various embodiments that allow MMC to be selectively pre-placed on a forming tool, aligning with specific regions of the metallic structure. This technique enables the creation of metallic structural components with selectively reinforced regions, ultimately improving mechanical properties in critical areas.

Career Highlights: As an inventor working for the United States of America as Represented by the Administrator of NASA, Wagner has played a pivotal role in advancing technological applications in aerospace and other industries. His research and innovative approach have positioned him as a key figure in developing sophisticated engineering solutions.

Collaborations: Throughout his career, Wagner has collaborated with notable peers, including Richard Keith Bird and Joel A. Alexa. These partnerships have contributed to the exploration of advanced materials and have furthered the collective understanding and application of metal matrix composites in various engineering fields.

Conclusion: John A. Wagner's innovative contributions reflect a commitment to enhancing material properties through advanced engineering methods. His patent on in-situ selective reinforcement serves as a testament to his forward-thinking approach in the industry, paving the way for future advancements in metal matrix composites and their applications.