Company Filing History:
Years Active: 2010-2011
Title: The Innovative Contributions of Otis Neil Taylor
Introduction
Otis Neil Taylor is a notable inventor based in Cleveland, TN (US). He has made significant contributions to the field of material compaction, particularly in the context of electrochemical cells. With a total of 2 patents to his name, Taylor's work showcases his dedication to advancing technology and improving manufacturing processes.
Latest Patents
Taylor's latest patents focus on a method of compacting material, specifically for cathode materials used in electrochemical cells. This innovative method involves inserting a mixture into a die cavity, where it is compacted into a disk shape. The process utilizes a first plunger that presses down on the material and a second plunger that presses upwardly. To prevent flashing of material during the ejection of the disk from the die, a polymeric sleeve is fitted around the outer surface of the first plunger. This sleeve flexes to bulge outwardly, ensuring it does not enter the die cavity during compaction and returns to its original position during ejection. Alternatively, a polymeric seal ring can be placed around the first plunger, which also prevents flashing during the ejection process.
Career Highlights
Otis Neil Taylor is currently associated with The Gillette Company, where he applies his expertise in material compaction. His work has contributed to the development of more efficient manufacturing techniques, particularly in the production of electrochemical cells.
Collaborations
Throughout his career, Taylor has collaborated with notable colleagues, including Albert A Andrews and Robert D Freeman. These collaborations have likely enriched his work and contributed to the innovative solutions he has developed.
Conclusion
Otis Neil Taylor's contributions to the field of material compaction demonstrate his commitment to innovation and technological advancement. His patents reflect a deep understanding of manufacturing processes and a desire to improve efficiency in the production of electrochemical cells.