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SPE Vinyltec 2025 Tuesday, October 10, 2025 7:45 AM Eastern Daylight Time (EDT) - Thursday, October 12, 2025 4:00 PM Eastern Daylight Time (EDT) Akron, Ohio Hosted by SPE Vinyl Plastics Division and SPE Akron Section More Information SPE Foams 2025
Vinyltec 2025 | SPE
Vinyltec 2025 Hilton Akron Fairlawn Hotel and Suites 3180 West Market Street Akron, Ohio 44333 +1 330.867.5000 Directions Digitalisation — The key for circularity in plastics Christian Hopmann, Ph.D. Institute Director, Chair for Plastics Processing IKV - RWTH Aachen University Abstract TBA About the Presenter
Stabilizer-plasticizer interaction in Class T3 PVC cables - Focus on
Stabilizer-plasticizer interaction in Class T3 PVC cables ... 2025 . Content may be ... o Aging at 150°C for 30 days interaction plasticizer stabilizers - focus on mass loss-40,00-35,00-30,00
A highly stable bio-based plasticizer constructed from renewable acids
The plasticizing properties of LLMEE in PVC were tested and compared to the commercial plasticizers acetyl tributyl citrate (ATBC) and dioctyl phthalate (DOP). The results of optical performance showed that, compared to ATBC and DOP, PVC plasticized by 50 phr LLMEE had both high transparency and UV resistance.
Non-phthalate plasticizer gives flexible PVC an
Perstorp, a leading supplier of polyols, is launching a new renewable-based polyol ester (non-phthalate) plasticizer Pevalen Pro. It will reportedly make flexible PVC an even more attractive choice of plastic, based on a significantly lower carbon footprint versus competing materials and technologies. With 40% renewable content, Pevalen Pro not
- What is the interaction between bio-plasticizer and PVC?
- The interaction between the Bio-Plasticizer and PVC is facilitated by various mixing techniques, typically conducted at temperatures ranging from 25°C to 70°C, which ensures efficient dispersion and absorption of the plasticizer within the PVC particles.
- Are bio-plasticizers a sustainable alternative to traditional plasticizers?
- Bio-Plasticizers, eco-friendly alternatives to traditional plasticizers, enhance PVC's properties while promoting sustainability across various industries due to health concerns.
- How are bio-plasticizers used in PVC?
- Bio-Plasticizers are integrated into polyvinyl chloride (PVC) during the manufacturing process to enhance the material’s flexibility and workability. This incorporation occurs through a process known as internal plasticization, where the Bio-Plasticizer interacts with the polymer matrix at a molecular level.
- Are bio plasticizers environmentally friendly?
- Unlike conventional plasticizers that are petroleum-based, Bio-Plasticizers are sourced from natural materials such as vegetable oils, starches, and fatty acids. They are considered environmentally friendly due to their renewable nature and lower toxicity levels. Why Use Bio-Plasticizers?
- What are bio plasticizers?
- What are Bio-Plasticizers?
- Bio-Plasticizers are additives used in the production of plastics to improve flexibility, durability, and processability. Unlike conventional plasticizers that are petroleum-based, Bio-Plasticizers are sourced from natural materials such as vegetable oils, starches, and fatty acids.
