Company Filing History:
Years Active: 2002
Title: Innovations by Anthony Latkowski in Bearing Technology
Introduction
Anthony Latkowski is an accomplished inventor based in Rugby, GB. He has made significant contributions to the field of bearing technology, holding two patents that showcase his innovative approach to manufacturing plain bearings. His work is characterized by a focus on enhancing the performance and durability of bearing materials.
Latest Patents
Latkowski's latest patents include a novel design for plain bearings. The first patent describes a bearing that comprises a metal backing, a sintered layer on the metal backing, and a lining layer that infiltrates the pores of the sintered layer. This lining layer, which stands proud to provide a bearing surface, consists of polytetrafluoroethylene mixed with 2 to 10% by volume of fibrillated aramid fibers. The second patent outlines a method of manufacturing a bearing material, which includes forming a water-based slurry with a solids content comprising 30 to 80% by volume of a fluoro-polymer, along with various web-forming and filler materials. This innovative method ensures that the resulting bearing material is both strong and resistant to high temperatures.
Career Highlights
Latkowski is currently employed at Glacier Garlock Bearings, Inc., where he continues to develop advanced bearing technologies. His expertise in the field has positioned him as a key player in the industry, contributing to the company's reputation for quality and innovation.
Collaborations
Latkowski has worked alongside talented colleagues, including Julie Ann McDonald and John Edward Wheatley. Their collaborative efforts have further enhanced the development of cutting-edge bearing solutions.
Conclusion
Anthony Latkowski's contributions to bearing technology through his innovative patents and collaborative work at Glacier Garlock Bearings, Inc. highlight his significant impact on the industry. His dedication to improving bearing materials continues to drive advancements in this essential field.