Company Filing History:
Years Active: 2025
Title: Aurelie Pelle: Innovator in Thermally Conductive Silicone Compositions
Introduction
Aurelie Pelle is a prominent inventor based in Saint Quentin Fallavier, France. She has made significant contributions to the field of silicone compositions, particularly in the development of thermally conductive materials. Her innovative work is essential for advancements in various industries, including automotive technology.
Latest Patents
Aurelie Pelle holds a patent for her invention titled "Thermally conductive silicone compositions." This invention relates to organopolysiloxane compositions that include an organopolysiloxane with at least two alkenyl groups per molecule, an organopolysiloxane with at least two SiH units per molecule, a hydrosilylation catalyst, and a thermally conductive filler. The thermally conductive filler comprises at least 40% by weight of metallic silicon and features a specific particle size distribution. The invention also encompasses a silicone elastomer that can be obtained through cross-linking and/or curing the composition. This elastomer is particularly useful as a thermally conductive material for coating or filling applications, especially in the automotive field and electric vehicles.
Career Highlights
Aurelie Pelle is currently employed at Elkem Silicones France Sas, where she continues to innovate and develop new materials. Her work has positioned her as a key player in the field of silicone technology, contributing to advancements that enhance product performance and sustainability.
Collaborations
Aurelie collaborates with talented coworkers, including Lucile Fauvre and Julie Dubois. These partnerships foster a creative environment that encourages the exchange of ideas and the development of cutting-edge technologies.
Conclusion
Aurelie Pelle's contributions to thermally conductive silicone compositions highlight her role as an influential inventor in the field. Her innovative work not only advances technology but also supports the growing demand for efficient materials in the automotive industry.