Highly Functional Plasticizers/Modifiers - DIC Corporation
DIC's highly functional plasticizers/modifiers are suited to product development that accommodates non-PVC applications, especially in the fields of information technology, optics, and automobiles that continue dramatic growth in recent years. DIC stocks proven products to modify resins such as rubber, urethane, acrylic, PET, and PC.
Natural-based plasticizers and biopolymer films: A review
Plasticizers are an important class of low molecular weight non-volatile compounds that are widely used in polymer industries as additives [1]. The primary role of such substances is to improve the flexibility and processability of polymers by lowering the second order transition temperature, the glass transition temperature ( Tg ).
Modifiers | Business & Products | DIC Corporation
DIC has a broad range of polymer modifiers that includes plasticizers, stabilizers, processing aids, and highly functional modifiers. We are working to meet the challenge of developing superior products that aim for even higher quality and functionality based on techniques that have been cultivated over the years. DIC's Modifiers
Title: A Review on Plasticizers and Eco-Friendly
Citrate plasticizers have good miscibility, biodegradable, resistant to leaching and water and have legal use as additives. The demand for bioplasticizers is reported to increase from 887
Payflex Series Plasticizers - High Quality Plasticizers
Plasticizers are used to enhance the overall flexibility of the product while reducing friction and making it easy for the polymer to bend and mould. Below are some of the many properties of high-quality plasticizers that we manufacture at Payal Group: They are designed to have a high boiling point.
- Is bioplasticizer a good alternative to plasticizers?
- The bioplasticizer, when incorporated into a PLA film at 1.0%, exhibited high tensile strength, tensile modulus, and an elongation percentage of 22.21 MPa, 12.29 MPa, and 22.74%, respectively, highlighting its potential as a practical, eco-friendly alternative to traditional plasticizers (Narayana Perumal et al., 2023). 7.6.3. From lignin
- Are bioplasticizers a sustainable alternative to fossil-fuel based plasticizers?
- Conclusion To sum up, bioplasticizers present a significant opportunity as an eco-friendly and sustainable substitute for conventional fossil-fuel-derived plasticizers, enhancing polymer flexibility. Their biodegradable nature and low toxicity make them suitable for a variety of uses, including food-safe packaging and medical devices.
- What is a biodegradable plasticizer?
- Tall oil, a byproduct of the Kraft process, is also used to make bioplasticizers. Citric acid (CA) from sugarcane, beets, or citrus fruits is a popular starting material for many natural plasticizers. Other molecules that have been studied as biodegradable plasticizers include amino acids, waxes, and lecithin.
- Which plasticizer is best for food contact?
- (31−36)Among them, citrate ester-based plasticizers are widely used because of their good miscibility with the PLA and their biocompatibility, ideal for food contact applications. (32,34,37)Specifically, to improve the mechanical properties of the PLA, TEC, a nontoxic, eco-friendly, and natural plasticizer, has been widely used. (37−42)
- What are non phthalate plasticizers?
- DIC is working to develop plasticizers (non-phthalate) that accommodate usage restrictions for Endocrine Disrupting Chemicals and food utensils, containers and packaging, and toys. Examples of major applications and representative product numbers of non-phthalate plasticizers are shown below.
- Which organic plasticizers are used for plasticization of biopolymers?
- Organic plasticizers for the plasticization of biopolymers include phthalate esters (e.g., di-isononyl phthalate, DINP, di-isodecyl phthalate, DIDP, and dioctyl phthalate, DOP) ; however, the use of phthalates is now restricted due to their toxicity and migration into the environment .
