Mechanical Recycling Meets Innovation: Real-Time Analysis in the Extrusion Process

From regulatory requirements to analytical technical solutions in material development with pre- and post-consumer plastic waste, learn how inline methods, rheology, and extrusion streamline R&D processes for faster and more sustainable product development.

Modern plastics, used in packaging, automotive, textile, and other applications, often contain complex chemical mixtures, posing significant recycling challenges. This 5-part webinar series introduces advancements in science to create efficient recycling methods for separating and processing these materials.

Who should attend this webinar series?

• Researchers and scientists from industry and academia who are involved in polymer/biopolymer material and product development.

Key learning objectives:

• Understanding Material Development: Learn about the latest advancements in developing new materials from recycled plastics.
• Innovative Methods: Discover the benefits of small-scale extrusion, rheology, and real-time online analytical methods, such as spectroscopy, in plastic recycling.
• Networking Opportunities: Discuss with experts and pose your questions during the Q&A session.
• Regulatory and Standardization Knowledge: Stay informed about the latest regulations and standards affecting plastic recycling practices. 

Webinar 3: Mechanical Recycling Meets Innovation: Real-Time Analysis in the Extrusion Process

Felix Mehrens and Niklas Rode will present inline monitoring in extrusion using Raman spectroscopy, a real-time method for optimizing recyclate quality. Unlike traditional random sampling, this approach enables continuous monitoring and process adjustments for improved reliability.

Presenter: Nicolas Rode & Felix Mehrens

Mehrens and Rode are PhD students and research associates at the IKK, Leibniz University Hannover. Mehrens specializes in recycling and inline analysis methods, while Rode focuses on chemometric analysis in plastics recycling. Both hold master’s degrees in mechanical engineering from Leibniz University Hannover.