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Plasticisers (US: plasticizers) are colourless and odourless liquids used primarily to soften plastic. Over 85% of all plasticisers consumed in Europe are employed in durable flexible PVC applications, largely for the construction, automotive and wire & cable sectors. Some plasticisers are used in non-PVC applications such as coatings, rubber
Plasticizers - Chemical Economics Handbook (CEH) | S&P Global
Flexible PVC (and thus plasticizers) is found in the following applications: construction (flooring, wall coverings), electrical (wire and cable jacketing), consumer goods (toys, footwear, etc.), packaging, transportation (inside and outside of vehicles), furnishings, and medical uses (tubing, blood bags).
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.
Eastman Plasticizers for Flooring | PVC Vinyl Flooring
Benzoflex 2088 is a high solvating plasticizer known for its exceptional performance in PVC, polyvinyl acetate and water-based adhesive systems. Benzoflex RF-532 is a benzoate ester specifically designed for resilient vinyl flooring applications. Benzoflex RF-532 is a high solvating plasticizer that may be used in foam, clear or wear
Plasticizers for PVC | POLYNT
About Plasticizers for PVC. The plasticizers are organic substances with various characteristics, whose main function is to intercalate the rigid polymer structures of material such as PVC for an easy movement and flexibility, making them more precisely "plastics." The presence of plasticizers in the PVC structure will influence different
- 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.
- Why are plasticizers important in PVC?
- The presence of plasticizers in the PVC structure will influence different specific physical-mechanical properties, in particular the elastic modulus, the elongation at break, hardness, flexibility at low temperatures. Thanks to their unique properties, plasticizers have become an integral part of many everyday objects.
- What are the different types of plasticizers?
- Plasticizers can be divided into several categories, including phthalate, non-phthalate, and biobased plasticizers. This categorization impacts their efficacy and regulatory compliance. The choice of plasticizer can influence the final properties of PVC, such as flexibility, tensile strength, and resistance to cracking.
- 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.
- Are PVC resins compatible with plasticizers?
- Compatibility between plasticizers and PVC resins is another fundamental aspect that determines the overall performance of the final product. 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.
- Are bio-based plasticizers a good choice for PVC products?
- Utilizing biobased plasticizers enhances the eco-friendliness of PVC products while retaining the necessary performance characteristics. Furthermore, they often undergo a different metabolic pathway, potentially reducing toxicity concerns.
