Company Filing History:
Years Active: 1980-1982
Title: Innovations of Howard I Kaplan
Introduction
Howard I Kaplan is a notable inventor based in Florence, Alabama, with a focus on advancements in alumina reduction technology. He holds three patents that showcase his innovative contributions to the field. Kaplan's work primarily revolves around improving the efficiency and effectiveness of alumina reduction cells used in aluminum production.
Latest Patents
Kaplan's latest patents include an improved alumina reduction cell and innovative cathodes for alumina reduction cells. The improved alumina reduction cell features a carbonaceous cathode that incorporates refractory hard metal tiles, which form the surface in contact with molten aluminum. This design includes intermediate tiles that separate the refractory hard metal tiles from the carbonaceous cathode, preventing unwanted reactions in the presence of molten aluminum. His second patent focuses on cathodes for alumina reduction cells, particularly drained cathodes that provide a refractory surface for contacting molten aluminum. These cathodes consist of a carbonaceous bed, preferably a graphite bed, and a composite tile characterized by a layer of refractory hard metal material bonded to a graphitic base layer.
Career Highlights
Kaplan has made significant strides in his career at Reynolds Metals Company, where he has applied his expertise in materials science and engineering to develop innovative solutions for aluminum production. His patents reflect a deep understanding of the materials and processes involved in alumina reduction.
Collaborations
Throughout his career, Kaplan has collaborated with notable colleagues, including Jerry H Bryce and Thomas J Johnston. These collaborations have contributed to the advancement of technology in the aluminum industry.
Conclusion
Howard I Kaplan's contributions to the field of alumina reduction technology are significant, as evidenced by his patents and career at Reynolds Metals Company. His innovative designs and collaborative efforts continue to influence the industry and improve aluminum production processes.