Designing anti-migration furan-based plasticizers and their
Herein, we designed and synthesized a series of ether ester plasticizers which combine FDCA and butyl oligo-glycol ethers (butyl glycol ether, butyldiglycol and butyltriglycol). The structure of these furan-based plasticizers contain furan ring, ether and ester groups.
Designing anti-migration furan-based plasticizers and their
With bio-based 2, 5-furandicarboxylic acid (FDCA) and butyl oligo-glycol ethers as raw materials, three liquid furan-based plasticizers of di (butyl glycol) furan-2,5-dicarboxylate, di (butyldiglycol) furan-2,5-dicarboxylate and di (butyltriglycol) furan-2,5-dicarboxylate were synthesized by direct H NMR and (DEHP).
DEVELOPMENT OF NEXT-GENERATION ESTER PLASTICIZERS FOR HIGH
Plasticizer 10 5.91% DIAK-1 0.7 0.41% Vulcofac ACT 55 e 2 1.18% Total 169.3 100% Results from the first part of the study led to the following new plasticizers being tested in this formulation, against a control compound without plasticizer: RX-14562 - medium MW aliphatic polyester RX-14600 - lower MW aliphatic polyester
Plasticizers for Elastomers - Innovative, leading-edge, ester
Plasticizers for Elastomers - Innovative, leading-edge, ester
MONOCIZER W-262 - DIC Corporation
MONOCIZER W-262 by DIC Corporation is a ether-ester plasticizer grade. Exhibits excellent low temperature flexibility and good oil resistant properties. Compatible with different kinds of rubbers such as nitrile butadiene, acrylic, chloroprene, epichlorohydrin rubber. MONOCIZER W-262 has applications in oil sealing, packing, tube & hose for
- What is an ester plasticizer?
- An ester plasticizer, in its simplest concept, is a high-boiling organic solvent that when added to an elastomeric polymer reduces stiffness and permits easier processing.1 For general performance applications, compounders require moderate performance in several areas without particular emphasis on any one.
- What is a general performance ester plasticizer?
- Some general performance ester plasticizers used in the marketplace today are DOA, DIDA, DIDP, DOP, DINP and other phthalates and adipates made from straight-chain alcohols of 7–11 carbons in length. Ester plasticizers are commonly used only for their as-molded, low-temperature contribution.
- How to choose a high-performance ester plasticizer?
- The rubber compounder must evaluate ester plasticizers for compatibility, processability, permanence and performance properties. The study of these properties by the rubber compounder will contribute to the selection of a high-performance ester plasticizer. 1.
- Which elastomers use polymeric esters?
- Polymeric esters are especially suited for high performance elastomers, such as nitrile, high saturated nitrile and polyacrylates. Polymeric esters also have found utility in chlorinated polyethylene, chlorosulfonated polyethylene and fluoroelastomers.
- Can polymeric esters enhance a high-performance elastomer?
- One example of how polymeric esters can enhance a high-performance elastomer is depicted in Figure 3. High-saturated nitrile is used in many high-heat applications. The use of 8-10 trimellitate is well documented as the plasticizer of choice for HNBR.
- Are plasticizers suitable for elastomers and high-temperature polymers?
- Plasticizers commonly used for the traditional and the high-temperature polymers are extractable, incompatible or too volatile. This paper provides information on plasticizers that are designed for traditional elastomers and high-performance polymers.
