Company Filing History:
1 out of 832,812 Years Active: 1978
Title: **Ernest I Frenkin: Pioneer of Self-Lubricating Heat-Resistant Materials**
Introduction
Ernest I Frenkin, an innovative inventor based in Moscow, Russia, has made a significant contribution to materials science with his patented invention. His work focuses on the development of a self-lubricating heat-resistant material that showcases remarkable thermal stability and wear resistance, marking a substantial advancement in the field.
Latest Patents
Frenkin holds a patent for a self-lubricating heat-resistant material and process for manufacturing it. This material comprises 20 to 90 percent by weight of a polymer binder, specifically poly(butadiene), with a degree of cross-linking from 30 to 95 percent. It also incorporates 10 to 80 percent by weight of an antifriction filler, such as molybdenum disulphide, graphite, or boron nitride. The novel process for producing this material involves pressing a composition of poly(butadiene) and antifriction fillers at temperatures between 200°C and 330°C, and pressures ranging from 1,000 to 7,000 kg/sq.cm. This invention is notable for its thermal stability at temperatures up to 350°C, stable coefficient of friction, and exceptional wear resistance within a temperature range of -150°C to +350°C.
Career Highlights
Throughout his career, Ernest I Frenkin has demonstrated a remarkable capacity for innovation in material development. His research and findings have established him as a valuable contributor in his field, particularly focusing on enhancing material performance under extreme conditions.
Collaborations
Frenkin has collaborated with esteemed individuals such as Nikolai S Nametkin and Georgy V Vinogradov, who have played significant roles in supporting his research endeavors. These collaborations reflect a strong network of professionals dedicated to advancing material science.
Conclusion
Ernest I Frenkin's dedication to creating advanced self-lubricating heat-resistant materials exemplifies the spirit of innovation. His contributions not only enhance the understanding of material properties but also pave the way for future applications in various industries where performance under temperature extremes is critical. As he continues to work and innovate, the impact of his developments promises to be profound and far-reaching.