Company Filing History:
Years Active: 2000
Title: Annette Heuss: Innovator in Tin-Plating Solutions
Introduction
Annette Heuss is a notable inventor based in Teltow, Germany. She has made significant contributions to the field of electrochemistry, particularly in the regeneration of tin-plating solutions. Her innovative approach addresses the challenges associated with exhausted tin-plating solutions, making her a key figure in this specialized area.
Latest Patents
Annette Heuss holds a patent for a "Method and device for regenerating tin-plating solutions." This invention relates to a method and device designed to regenerate exhausted tin-plating solutions that contain tin and copper ions, as well as complexing agents. The process involves concentrating rinse water from the tin-plating process to a 10 to 15 percent dilution of the process solution. The resulting regenerating solution is then fed into an electrolytic cell, which consists of a cathode chamber, a middle chamber, and an anode chamber. The innovative design allows for the effective removal of copper components and the enrichment of tin ions, ultimately enabling the regenerated solution to be reused in the tin-plating process.
Career Highlights
Throughout her career, Annette has demonstrated a commitment to advancing the field of electrochemistry. Her work has not only contributed to the efficiency of tin-plating processes but has also provided a sustainable solution for the recycling of materials. She is recognized for her technical expertise and innovative thinking in developing practical applications for her inventions.
Collaborations
Annette has collaborated with notable colleagues, including Ulrich Reiter and Werner Harnischmacher. These partnerships have fostered a collaborative environment that encourages the exchange of ideas and the development of cutting-edge technologies in the field.
Conclusion
Annette Heuss is a pioneering inventor whose work in regenerating tin-plating solutions exemplifies innovation in electrochemistry. Her contributions have significant implications for sustainability and efficiency in industrial processes.