Effects of bio-based plasticizers on mechanical and thermal
Epoxy fatty acid methyl ester is another promising new alternative plasticizer because of its low toxicity and partial biodegradability, and because it is mainly produced by modifying natural products (Fenollar et al.2009a), such as rubber seed oil, soybean oil (Karmalm et al. 2009), and sunflower oil (Bouchareb and Benaniba 2008).
An efficient bio-based plasticizer for poly (vinyl chloride
It is worth noting that the kind and amount of vegetable oil-based plasticizers for PVC have attracted extensive attention from the public; these plasticizers include epoxidized soybean oil (ESO), acetylated derivatives of castor oil, methyl epoxy soyate, amyl epoxy soyate, tall-oil fatty esters, di-caprylsebacate and epoxidized soybean oil
Epoxidized methyl ricinoleate bio-plasticizer with a
Among numerous bio based plasticizers, epoxidized fatty acid methyl ester, also known as epoxy fatty acid ester, is favorable for application as an additive material in PVC, which is attributable
Conversion of fatty acid methyl ester to epoxy plasticizer by
Among numerous bio based plasticizers, epoxidized fatty acid methyl ester, also known as epoxy fatty acid ester, is favorable for application as an additive material in PVC,...
Conversion of fatty acid methyl ester to epoxy plasticizer by
Fatty acid methyl esters (FAMEs) can be converted to epoxy plasticizer by in situ auto-catalyzed formation of performic acid (PFA) in a bi-phase reaction system. However, mass transfer effect could be neglected in a well-stirred reaction system. A pseudo-homogenous kinetic model was thus developed to describe the kinetics of FAME epoxidation.
