Arno Reckziegel

Title: Arno Reckziegel: Innovator in Conductive Cermet Manufacturing

Introduction: Arno Reckziegel, based in Frankfurt-am-Main, Germany, has made significant contributions to the field of materials science through his innovative work on cermets. Known for his noteworthy patent, he has dedicated his career to improving the manufacturing processes that enhance electric conductivity while minimizing precious metal usage.

Latest Patents: Reckziegel holds a valuable patent titled "Method of manufacturing an electrically conductive cermet." This innovative method allows for the production of a cermet containing less than 35% by volume of precious metal. By blending a powdered refractory ceramic with powdered metal, the process involves molding the mixture into a green body followed by sintering. The result is a cermet that possesses a dense ceramic phase with a coherent network of metallic phase, achieving high electrical conductivity even at lower metal content. The selection of precious metal powder is crucial, as it minimizes shrinkage and exhibits a reduced tendency for sintering compared to the ceramic powder.

Career Highlights: Reckziegel's expertise was honed through his work with notable companies such as W.C. Heraeus GmbH and Friatec Aktiengesellschaft. His tenure at these organizations allowed him to refine his skills and apply his innovative ideas in practical settings, thereby contributing to advancements in material technology.

Collaborations: Throughout his career, Reckziegel has collaborated with talented individuals, including his coworkers David Francis Lupton and Jorg Schielke. These partnerships have fostered an environment of innovation, enabling the development of groundbreaking solutions in the field of cermet manufacturing.

Conclusion: Arno Reckziegel’s contributions to the field of electrically conductive cermets exemplify the importance of innovation in materials science. His patented method not only opens doors for more efficient manufacturing practices but also ensures that high electric conductivity can be achieved with reduced reliance on precious metals. As he continues to work alongside esteemed colleagues, Reckziegel remains a pivotal figure in the realm of cermet innovations.