Company Filing History:
Years Active: 2013
Title: **Inventor Pierre Lutz: Innovating Polymer Additives**
Introduction
Pierre Lutz is an accomplished inventor based in Prattein, Switzerland, with a significant contribution to the field of polymer additives. His innovative work has led to the development of a unique method for producing low-dust granules from polymer additives. This invention stands out for its technical advantages, which enhance the usability and performance of chemical products in various applications.
Latest Patents
Pierre Lutz holds a patent for his invention titled "Method of producing low-dust granules from polymer additives." This innovative method involves mixing granule-forming polymer additives, converting the mixture into a workable mass, and pressing it through an orifice. Following this, the pre-shaped strand-like extruded mass is cooled and formed into granules through a series of processes including rolling, impressing, cooling, and comminuting. This technique effectively minimizes dust creation, improving safety and handling during use.
Career Highlights
Lutz is currently associated with BASF SE Corporation, a leading global chemical company known for its innovative solutions and commitment to sustainability. His role at BASF has allowed him to leverage his expertise to further develop efficient methods for producing polymer additives, making significant impacts in the industry.
Collaborations
Throughout his career, Pierre has collaborated with notable coworkers, including Benjamin Breitenstein and Thomas Georg Gfrörer. Their combined efforts in research and development have contributed to creating advanced methodologies and improving existing processes within their field of expertise.
Conclusion
Pierre Lutz exemplifies the spirit of innovation that drives progress in the chemical industry. His patented method not only showcases his technical ingenuity but also highlights the importance of collaboration in fostering advancements. As he continues his work at BASF SE Corporation, his contributions are poised to have lasting impacts on the future of polymer additives and materials science.