Company Filing History:
2 out of 3 
1 out of 5,020 
1 out of 16,338 
Years Active: 1978-2003
Title: **Menachem Lewin: Innovator in Flame Retardant Technologies**
Introduction
Menachem Lewin, an accomplished inventor based in Jerusalem, Israel, has contributed significantly to the field of material science with a focus on flame retardant technologies. He holds a total of five patents that reflect his innovative approach to enhancing the safety and performance of polymeric materials.
Latest Patents
Among his recent inventions, Lewin has developed advanced compositions aimed at improving flame retardation in polymeric compositions. One of his notable patents involves compositions that integrate fillers like glass fibers along with flame-retarding additives, including polyphosphates, sulfur-containing compounds, catalysts, and nitrogen-containing compounds such as melamine. Another innovation centers on flame retardant polymer compositions composed of various polymers, such as polyamide, polyolefin, polyester, and others, with effective additive measures to enhance flame resistance.
Career Highlights
Throughout his career, Menachem Lewin has collaborated with prestigious organizations, including the State of Israel's Ministry of Commerce & Industry and Colgate-Palmolive Company. His work in these institutions has allowed him to refine his innovative ideas and apply them to real-world applications, significantly impacting product safety standards.
Collaborations
Lewin has worked alongside notable coworkers in his journey, including John A. Church and Michael Prencipe. These collaborations have facilitated a vibrant exchange of ideas and expertise, contributing to his innovative achievements in the field.
Conclusion
Menachem Lewin’s contributions to flame retardant technologies showcase his inventive prowess and dedication to improving material safety. With five patents to his name and a robust career trajectory, Lewin continues to inspire future generations of inventors in the realm of polymer science. His work not only enhances the safety of products but also pushes the boundaries of what is possible in material innovation.