Michael C McBennett

Title: Michael C McBennett: Innovator in Plasma Arc Technology

Introduction

Michael C McBennett is a notable inventor based in Lamar, SC (US). He has made significant contributions to the field of plasma arc technology, holding a total of 4 patents. His innovative work focuses on enhancing the efficiency and durability of plasma arc torch electrodes.

Latest Patents

Among his latest patents is the "Electrode diffusion bonding," which discloses an electrode for a plasma arc torch. This invention features a copper holder that defines a cavity at its forward end. An emissive element and separator assembly are positioned within this cavity, eliminating the need for brazing materials to secure the components. The process involves heating the emissive element, separator, and metallic holder to promote diffusion bonding, thereby enhancing the electrode's operational lifespan. Another significant patent is the "Method of coating an emissive element," which describes a technique for applying a layer of relatively non-emissive material to the outer surface of the emissive element. This method involves heating the emissive element to a high temperature, making it reactive, and then spraying the non-emissive material onto it. The resulting strong bond between the emissive element and separator extends the life of the electrode.

Career Highlights

Michael C McBennett is currently associated with The Esab Group Inc., where he continues to innovate in the field of plasma arc technology. His work has been instrumental in advancing the capabilities of plasma arc torches, making them more efficient and durable.

Collaborations

Throughout his career, McBennett has collaborated with notable colleagues, including Gregory William Diehl and Rue Allen Lynch. Their combined expertise has contributed to the development of cutting-edge technologies in the industry.

Conclusion

Michael C McBennett's contributions to plasma arc technology through his patents and collaborations highlight his role as a leading innovator in the field. His work continues to influence advancements in electrode design and functionality.