A potentially general approach to aliphatic ester-derived PVC
As sustainable alternatives, aliphatic ester-derived plasticizers feature low cytotoxicity, biodegradability, and renewability, but they can only partially replace DEHP in PVC formulations because they have a strong tendency to migrate.
Plasticizers for the PVC industry are now also available
These materials are derived from organic waste or vegetable oils. Biomass balanced plasticizers have a lower carbon footprint than the conventional ones and help save fossil resources. Both, BASF’s mass balance approach and BMB plasticizers are certified according to REDcert 2. Ccycled TM plasticizer based on chemically recycled feedstock
Plasticizers – Benefits, Trends, Health, and Environmental
Plasticizers soften the PVC to make it flexible and bendable. This opens up a huge range of possibilities for new applications. One of the main benefits of plasticizers is the durability they confer onto PVC applications, which can ensure high performances for up to 50 years.
Environmentally-friendly PVC Plasticizers (Non-phthalate
Environmentally-friendly PVC Plasticizers (Non-phthalate Plasticizers) POLYCIZER, MONOCIZER Functional Products Awareness is increasing regarding the environment and the safety of plasticizers and a response is being demanded in raw materials as well.
Effective, Environmentally Friendly PVC Plasticizers Based on
Succinate esters are promising PVC environmentally friendly plasticizers that can replace toxic phthalate plasticizers. They are not only less toxic than phthalate plasticizers but also show better resistance to plasticizer migration from the polymer matrix.
- What are the best value-added PVC plasticizer options?
- Let’s now turn our attention to three value-added PVC plasticizer options that exceed the emerging requirements of REACH and European Union (EU) regulation. VESTINOL® 9 DINP is a very cost-effective, general-purpose plasticizer very useful in soft PVC formulations with a broad processing temperature window.
- What makes a good plasticizer?
- A good plasticizer must blend uniformly with the PVC matrix, ensuring that it does not phase-separate or lead to inconsistency in the material properties. An effective means to evaluate compatibility is through the analysis of: Solubility: The plasticizer should dissolve in PVC without forming precipitates.
- 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.
- Why should companies invest in plasticizer technology?
- Companies should invest in research and collaboration to explore uncharted territories in plasticizer technology, potentially redefining the standards of PVC applications. Future challenges will require a proactive and informed approach to ensure that PVC and its plasticizers can adapt to an evolving industrial landscape.
- Why are plasticizers important?
- The addition of plasticizers enhances the material's flexibility, processability, and durability. PVC is used in countless applications, ranging from construction materials to medical devices. As industries push for more sustainable practices, understanding plasticizers, their types, and their environmental impact has become more significant.
- How do plasticizers affect the performance of PVC products?
- Plasticizers influence the flexibility, workability, and durability of PVC products. Choosing the right type of plasticizer can enhance the performance characteristics of PVC while also addressing environmental and health concerns.
