Company Filing History:
Years Active: 2020
Title: **Innovations in Flow Control: The Patented Work of Paul Mazur**
Introduction
Paul Mazur is an innovative inventor based in Pasadena, CA, known for his pioneering contribution to fluid dynamics through his unique patent. His work centers around enhancing flow control techniques utilizing dielectric materials, which have significant implications in various engineering applications.
Latest Patents
Mazur holds a patent for a groundbreaking technique titled "Flow Control Technique by Dielectric Materials." This invention introduces a multilayered active surface whose rugosity can be manipulated via an applied electrical field. The ability to adjust rugosity is crucial as it impacts the boundary layer instabilities when in contact with fluids. This multilayered design incorporates a middle layer made of compliant electroactive material that can be pre-stretched to define a specific rugosity even without electrical input. Applying an electrical field further enhances and alters the surface characteristics, paving the way for scalable and efficient fluid flow management.
Career Highlights
Currently, Paul Mazur is affiliated with the California Institute of Technology, where he employs his expertise in engineering and material science to explore advanced applications of dielectric materials. His innovative approach to fluid control systems has garnered attention within both academic and industrial circles, showcasing his commitment to enhancing mechanical efficiency through engineering breakthroughs.
Collaborations
Mazur collaborates with esteemed colleagues, including Kaushik Bhattacharya and Beverley McKeon. These partnerships have led to interdisciplinary research that combines principles of mechanical engineering, materials science, and applied physics, further enriching the development of their collective ideas and inventions.
Conclusion
Paul Mazur’s contributions to the field of fluid dynamics are significant, particularly through his patented innovations that leverage dielectric materials. His work at the California Institute of Technology exemplifies the impactful intersection of research and practical application, paving the way for future advancements in flow control technology.