Location History:
- Spekerod, SE (2000)
- Spekeröd, SE (2002)
Company Filing History:
Years Active: 2000-2002
Title: The Innovative Contributions of Elisabeth Ribarits
Introduction
Elisabeth Ribarits, an accomplished inventor based in Spekeröd, Sweden, has made significant strides in the field of polymer materials. Her expertise and innovative thinking have led to the development of a notable patent that enhances the performance and reliability of pipes, paving the way for advancements in various applications.
Latest Patents
Elisabeth holds a patent for a multimodal polymer composition specifically designed for pipes. This innovative polymer comprises a multimodal polyethylene with a density ranging from 0.930-0.965 g/cm³. It exhibits impressive properties, including a viscosity at a shear stress of 747 Pa of at least 650 Pa.s, and a carefully balanced weight ratio of low molecular weight to high molecular weight fractions. This unique combination contributes to pipes that can withstand a stress of 8.0 MPa gauge for an impressive 50 years at 20°C, showcasing stability and durability.
Career Highlights
Throughout her career at Borealis Technology Oy, Elisabeth Ribarits has demonstrated a commitment to pushing the boundaries of polymer science. Her work has not only resulted in this patent but has also contributed to the enhancement of industrial applications, impacting various sectors that rely on durable and effective pipe systems.
Collaborations
Elisabeth collaborates closely with talented individuals such as Mats Bäckman and Eeva-Leena Heino, leveraging their combined expertise to further innovate and refine polymer technologies. These collaborations underscore the importance of teamwork in nurturing creativity and driving meaningful advancements in the industry.
Conclusion
Elisabeth Ribarits stands out as a prominent figure in the field of polymer inventions, particularly with her groundbreaking patent for multimodal polymer compositions for pipes. Her contributions at Borealis Technology Oy and her collaborations with esteemed colleagues highlight her dedication to innovation. As the demand for advanced materials continues to grow, Elisabeth's work is poised to play a crucial role in shaping the future of polymer applications.