Roland Kammel

Title: Roland Kammel: A Trailblazer in Electrolytic Innovations

Introduction

Roland Kammel, based in Berlin, Germany, is a noted inventor with a remarkable contribution to the field of electrolytic processes. With a prolific record of seven patents, Kammel has pioneered advancements that have substantially impacted the production of metallic alloy powders and chromium alloy plating.

Latest Patents

Kammel's most recent innovations include an electrolytic process for the production of fine-grained, single-phase metallic alloy powders. This process details the galvanic production of powdery metallic precipitates on the cathode, utilizing an electrolytic precipitating bath containing the desired metals. It establishes conditions for achieving effective powder precipitation, thus facilitating the specific production of alloy powders with defined properties.

Another significant patent involves a method for electrodepositing a chromium alloy deposit. This innovation presents a chromium alloy plating bath that consists of divalent and trivalent chromium ions, alongside cation and metal ions from selected groups. Notably, this method allows for stable plating without the need for electrolyte separation using a diaphragm, achieving high current efficiencies during deposits.

Career Highlights

Over the years, Roland Kammel has worked at Gotzelmann KG, an industry leader in wastewater treatment systems. His experience in this reputable company has enriched his understanding of electrolytic processes, allowing him to bridge the gap between practical applications and innovative developments in metallurgy.

Collaborations

Throughout his career, Kammel has collaborated with esteemed colleagues, including Hans-Wilhelm Lieber and Gunther Schulz. Their combined expertise has facilitated the furtherance of innovative projects and has bolstered advancements in the field of electrolytic processes.

Conclusion

With a commendable portfolio of patents and collaborative efforts, Roland Kammel continues to drive innovations in electrolytic production methods. His work not only enhances industrial applications but also sets the stage for future developments in the realm of metallic alloys and electroplating technologies.