Petro‐based and bio‐based plasticizers: Chemical structures
After some generalities concerning plasticization theories and the description of plasticized petro‐ and bio‐based polymers, this review details the well‐known different petro‐based plasticizers and more particularly phthalates which represent the most important category of PVC plasticizers.
Petro‐based and bio‐based plasticizers: Chemical structures
After some generalities concerning plasticization theories and the description of plasticized petro- and bio-based polymers, this review details the well-known different petro-based plasticizers and more particularly phthalates which represent the most important category of PVC plasticizers.
Petro‐based and bio‐based plasticizers: Chemical structures
Petro‐based and bio‐based plasticizers: Chemical structures to plasticizing properties Mava Bocqué, Coline Voirin, +2 authors J. Robin Published 2016 Materials Science Journal of Polymer Science Part A Polymeric materials, in particular PVC, can find various industrial utilizations thanks to the use of plasticizers added during their processing.
Research progress of novel bio-based plasticizers and their
Petroleum-based plasticizers especially phthalates have been the most common plasticizers used in PVC. However, the global petroleum resources are becoming scarce gradually, and the hygienic requirements for plasticizers are increasing.
Title: A Review on Plasticizers and Eco-Friendly
Bioplasticizers such as epoxidized plant oils, cardanol, citrates and Isorbide esters are derived from further modifications of oils and triglyceride, starch and cellulose, citric acids and...
- What are bio-based plasticizer structures?
- In an in-depth analysis, the bio-based plasticizer structures, their groups and substituents (ester groups, alkyl chains, aromatic rings…) are gathered and examined in order to be able to predict their plasticizing efficiency and design new molecular and macromolecular plasticizers from natural resources. © 2015 Wiley Periodicals, Inc. J. Polym.
- Is there a bio-based plasticizer for rubber?
- The goal of this review is to design an ultimate bio-based plasticizer for rubber that fulfills all the requirements of an efficient plasticizer and to elaborate the multidisciplinary action that how microscopic particles induce advancements in the macroscopic properties of the bulk (rubber). 2. Generalities about plasticizers
- What are bio-based plasticizers based on epoxidized oils?
- Bio-based plasticizers based on epoxidized oils from different sources such as cottonseed oil, coconut oil, sunflower oil, castor oil, linseed oil and soybean oil have been reported as environmental plasticizer (Bouchoul et al., 2014; Ferri et al., 2017; Jia et al., 2017; Fu et al., 2019; Cheng et al., 2019; Gama et al., 2019; Ye et al., 2019).
- Are bio-based plasticizers a viable solution to migration problems?
- Owing to migration problems, impact on the human health and the environment, alternative candidates have been developed by researchers. Renewable resources and their wastes offer a large platform for the design of bio-based plasticizers using polysaccharidic or lipidic structures.
- Are bioplasticizers biodegradable?
- Bioplasticizers are less synthetic chemicals and are biodegradable. In wire applications, the use of bioplasticizers was able to reduce carbon emissions by up to 40%. Plasticizers are the most common plastic additives. The production of plasticizers from vegetable oils is slowly replacing the plasticizers produced by petroleum products.
- Should petroleum-based plasticizers be replaced with bioplasticizers?
- The substitution of petroleum-based plasticizers with bioplasticizers offers noteworthy advantages, such as recyclability, biodegradability, high lubricant power, low diffusion coefficients in the polymeric matrix and very low volatility.
