Plasticizer - an overview | ScienceDirect Topics
Plasticizers can increase or decrease polymer degradation rates; thus, addition of plasticizers to a disposable biodegradable biopolymer can be used to control the operative degradation rate of the material. Internal or external plasticizers can be used for this purpose.
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.
What Plasticizers Do & How They Affect Properties | Osborne
Posted May 17, 2025. Plasticizers are non-volatile chemical solvents used throughout the plastics industry to increase such properties as flexibility, pliability, durability, longevity, biodegradability, and extensibility in polymers. When added to a plastic or elastomer, plasticizers affect the properties of the material without fundamentally
Plasticizer - an overview | ScienceDirect Topics
Within a given series of esters having a common acid group, plasticizer efficiency increases as the molecular weight of the plasticizer decreases. Plasticizer efficiency improves as the linearity of the alcohol chain also increases. Sign in to download full-size image Figure 3. Hardness versus Plasticizer Concentration View chapter Purchase book
STUDY OF CONCRETE WITH VARIOUS TYPES OF PLASTICIZERS AND
Plasticizers were selected from same producer (Chryso). Different types of plasticizers differing in effects on fresh concrete characteristics were selected. ChrysoPlast 460 is plasticizer based on lignosulfonate and on the other hand ChrysoFluid Optima 224 is a modern type of polycarboxylate based superplasticize.
- Do plasticizers enhance lithium ion transport in PEO-based solid polymer electrolytes?
- Enhanced lithium ion transport in PEO-based solid polymer electrolytes employing a novel class of plasticizers Ionic conductivity studies in composite solid polymer electrolytes based on methylmethacrylate Effect of plasticizer and lithium salt concentration in PMMA-based composite polymer electrolytes Int. J. Electrochem.
- Do plasticizers affect transport eficiency?
- The plasticizers were found to significantly affect the characteristics of membrane hydrophilicity, mechanical flexibility, and thermal stability. Transport experiments using Hg(II) as a model target ion revealed that, for CTA-based PIMs, the plasticizer did not significantly affect transport eficiency.
- Why is plasticizer important?
- Plasticizer facilitates the reduction of crystalline nature of the polymer matrix and also increases the polymer segmental mobility. It further results in greater ion dissociation which allows greater number of charge carriers for ion transport in the electrolyte.
- Does plasticizer affect free volume and transport properties?
- Although the thermal and mechanical properties have been widely studied in the literature, the effect of the plasticizer on free volume and transport properties has not been deeply analysed. The free volume was characterized using positron annihilation lifetime spectroscopy observing its linear increase with TbC content.
- Does plasticizer affect structural properties of polymer-salt matrix?
- The combined effect of filler and plasticizer on polymer-salt matrix can lead to better electrical, electrochemical as well as thermal properties. 3. Conclusions Effect of inclusion of plasticizers on structural properties of polymer electrolytes is discussed with aid of literature reports available.
- Do Plasticizers improve bulk conductivity and salt diffusion coefficient of polymer electrolytes?
- As expected, the plasticizers always improved the bulk conductivity and increased the salt diffusion coefficient of polymer electrolytes at the selected temperatures. The conductivity and the salt diffusion coefficients of sample electrolytes ranked identically in the order PL10PG>PL10EC>PL10PC>PL.
