Company Filing History:
Years Active: 2001
Title: Horst Kappes: Innovator in Stainless Steel Production
Introduction
Horst Kappes is a notable inventor based in Duisburg, Germany. He has made significant contributions to the field of metallurgy, particularly in the production of stainless steels. His innovative approach has led to advancements in smelting processes that enhance the efficiency and quality of steel production.
Latest Patents
Horst Kappes holds a patent for a process titled "Producing stainless steels in parallel operated vessels." This patent describes a method for producing stainless steels, especially special steels containing chromium and chromium-nickel, using a smelting arrangement with at least two vessels. The process involves melting a charge primarily made of iron-containing raw scrap materials and partially carbon-containing alloy carriers in a first vessel. At a temperature of 1460°C, the melt undergoes decarburization through oxygen injection, reducing the carbon content to less than 0.3%. The melt is then heated to a tapping temperature between 1620°C and 1720°C, with the carbon content further reduced to 0.1%. Simultaneously, a second charge is melted in a second vessel during the decarburization of the first charge.
Career Highlights
Horst Kappes is associated with Mannesmann Aktiengesellschaft, a prominent company in the steel industry. His work has been instrumental in advancing the techniques used in steel production, particularly in the area of stainless steels. His innovative methods have contributed to the efficiency and effectiveness of steel manufacturing processes.
Collaborations
Throughout his career, Horst Kappes has collaborated with notable colleagues, including Lutz Rose and Hartmut Vorwerk. These collaborations have fostered an environment of innovation and have led to significant advancements in their respective fields.
Conclusion
Horst Kappes is a distinguished inventor whose contributions to stainless steel production have had a lasting impact on the industry. His innovative processes continue to influence modern metallurgy and enhance the quality of steel products.