Robert J Metz

Title: Innovations by Robert J. Metz in Microporous Chromium Deposits

Introduction

Robert J. Metz, an innovative inventor based in Canton, MI, is known for his significant contributions to the field of electroplating. With one patent to his name, Metz has developed a groundbreaking method for creating microporous chromium deposits that enhance various applications in material science.

Latest Patents

Metz holds a patent for a unique plating bath and process for making microporous chromium deposits. This invention discloses a composition and method for electroplating microporous chromium layers without the need for microparticles in either the chromium layer or a sublayer. The composition consists of chromic acid and sulfoacetic acid, with optional additions of dichromate ion, sulfate ion, and/or fluoride ion, while being substantially free of iodide, selenide, or bromide ions. The result is a deposit featuring at least 20,000 micropores per square inch, allowing for the production of multiple layer articles with an outer layer of microporous chromium.

Career Highlights

Robert J. Metz is affiliated with M&T Chemicals, Inc., where his expertise in electroplating processes exemplifies his dedication to advancing the materials engineering field. His singular patent stands as a testament to his innovative spirit and technical proficiency.

Collaborations

Throughout his career, Metz has collaborated with talented individuals such as Joseph G. Sovran. Their partnership exemplifies the collective effort often required to drive innovation and create impactful inventions within the industry.

Conclusion

Robert J. Metz's contributions to the development of microporous chromium deposits demonstrate the importance of innovation in material science. His patent not only showcases his inventiveness but also highlights the potential applications of his work in various industries. As he continues to push the boundaries of electroplating technology, Metz remains a key figure in the realm of materials engineering.