Company Filing History:
Years Active: 2010-2014
Title: Innovations of Stephan Schulz in Organopolysiloxane Technology
Introduction
Stephan Schulz is a notable inventor based in Dresden, Germany. He has made significant contributions to the field of organopolysiloxane technology, holding 2 patents that showcase his innovative approaches. His work focuses on improving the metering and production processes of organopolysiloxane compositions.
Latest Patents
Schulz's latest patents include a "Method for metering compounds based on organopolysiloxanes." This invention involves metering viscous compositions discontinuously into storage vessels from a stable volume container that is free of dead space. The calculated volume is determined by the mathematical product of adiabatic compressibility coefficients of the composition, the outlet pressure, and the volume of the container, which exceeds the metered volume.
Another significant patent is the "Process for producing crosslinkable compositions based on organopolysiloxanes." This process allows for the production of crosslinkable organopolysiloxane compositions that can be crosslinked at room temperature. The compositions are stored in a unit with a storage capacity of at least 15 minutes of production capacity, maintaining an internal pressure of more than 1200 hPa during filling.
Career Highlights
Stephan Schulz is currently employed at Wacker Chemie AG, a leading company in the chemical industry. His work at Wacker Chemie AG has allowed him to develop and refine his innovative processes, contributing to advancements in material science.
Collaborations
Throughout his career, Schulz has collaborated with notable colleagues such as Peter Schoeley and Guenther Dineiger. These collaborations have fostered a creative environment that encourages the exchange of ideas and expertise.
Conclusion
Stephan Schulz's contributions to organopolysiloxane technology through his patents and work at Wacker Chemie AG highlight his role as an influential inventor in the field. His innovative methods continue to push the boundaries of material science and engineering.