Company Filing History:
Years Active: 2011
Title: Sarah Anne Mazzella - Innovator in Polymer Reinforcement
Introduction
Sarah Anne Mazzella is a renowned inventor based in Lancaster, California. With a keen focus on enhancing the physical properties of polymers, she has made significant contributions to the field of material science. Her work has garnered attention for its practical applications in various industries.
Latest Patents
Sarah holds a patent for her innovative invention titled "Fluorinated POSS as alloying agents in nonfluorinated polymers." This patent describes a method of utilizing fluorinated-nanostructured POSS chemicals as alloying agents that reinforce polymer microstructures at the molecular level. The ability to tailor compatibility with nonfluorinated polymers enables direct blending processes, which positively influence a range of polymer physical properties. Key improvements include enhanced surface properties such as lubricity, water repellency, and abrasion resistance. These advancements hold promise for applications ranging from anti-icing surfaces to low friction and self-cleaning materials.
Career Highlights
Throughout her career, Sarah has demonstrated a strong commitment to the advancement of polymer technology. Her innovative approach has not only led to the development of her patent but has also inspired further research and exploration in the field. Her contributions continue to pave the way for new materials and applications that can further benefit various sectors.
Collaborations
In her endeavors, Sarah has collaborated with notable professionals such as Joseph M Mabry and Timothy S Haddad. These partnerships have fostered a creative environment for innovation, allowing them to explore complex challenges in material science and develop cutting-edge solutions.
Conclusion
Sarah Anne Mazzella's work in the realm of polymer reinforcement highlights her role as a pioneering inventor. With her patent on fluorinated POSS, she has introduced novel methods and materials that enhance the performance of nonfluorinated polymers. Her accomplishments reflect her dedication to advancing technology and improving the functionalities of materials used in various applications.