Cargill Plasticizers | Bio-Based Plasticizers | Cargill
Cargill has created a bio-based plasticizer that meets the rigorous regulations for the PVC industry without sacrificing performance or profitability. The Biovero plasticizer solution is derived from bio-based feedstock and includes sustainability benefits, flexibility, and high efficiency.
Research progress of novel bio-based plasticizers and their
Many bio-based PVC plasticizers, such as vegetable oil-based plasticizers, cardanol-based plasticizers, lactic acid-based plasticizers, waste cooking oil-based plasticizers, polyester plasticizers, hyperbranched plasticizers and so on, have been extensively studied.
Recent Developments of Biobased Plasticizers and Their Effect on
Preparation and Performance of Bio-Based Polyol Ester from One-Pot Synthesis of Castor Oil as Nontoxic Poly(Vinyl Chloride) Plasticizer. Journal of Polymers and the Environment 2025 , 28 (8) , 2101-2107.
Synthesis and application of high-stability bio-based plasticizer
In this article, we prepared a high-stability bio-based plasticizer derived from ricinoleic acid through a four-step reaction and blended it with PVC to prepare samples. Taking commercial DOP and DOA as a comparison, we analyzed the mechanical properties, thermal stability, and migration resistance of plasticized PVC films.
Bio-Based Plasticizer Products | ACS Technical Products
Our higher molecular weight plasticizers are exceptionally suited for high end PVC systems that benefit from efficient plasticization, low color, excellent clarity, high efficiency, acid scavenging and stabilization. Epoxol 9-5 Plasticizer, Acid Scavenger, Epoxy Modifier
- Are bio-based plasticizers for polylactic acid sustainable?
- Research on bio-based plasticizers for polylactic acid (PLA), an environmentally friendly and biodegradable polyester, has advanced due to the increasing focus on sustainable materials.
- What materials are used to make bio-based plasticizers for polylactic acid?
- The raw materials for the synthesis of bio-based plasticizers for PLA primarily include vegetable oils, citric acid, oleic acid, sebacic acid, adipic acid, succinic acid, cardanol, isosorbide, and other small molecules (Fig. 3). Fig. 3. Origin and structural composition of bio-based plasticizer molecules designed for polylactic acid.
- Which plasticizers are used for bio-based plastics?
- This review focuses on plasticizers utilized for bio-based plastics. Although a wide variety of bio-based plastics are under development, this review focuses on the most extensively studied bioplastics including poly(lactic acid), polyhydroxyalkanoates, thermoplastic starch, proteinaceous plastics, and cellulose acetates.
- What are bio-based PVC plasticizers?
- Many bio-based PVC plasticizers, such as vegetable oil-based plasticizers, cardanol-based plasticizers, lactic acid-based plasticizers, waste cooking oil-based plasticizers, polyester plasticizers, hyperbranched plasticizers and so on, have been extensively studied.
- What are natural based plasticizers?
- Nowadays, there is increasing interest in the use of natural-based plasticizers that are characterized by low toxicity and low migration. This group includes epoxidized triglyceride vegetable oils from soybean oil, linseed oil, castor-oil, sunflower oil, and fatty acid esters (FAEs) .
- What is a bio-based plasticizer for PLA?
- Common bio-based plasticizers for PLA on the market today include acetyl tributyl citrate (ATBC), tributyl citrate (TBC), and polyethylene glycol (PEG). Among these, the Tg of PLA plasticized with 20 wt% TBC was found to decrease to 17.6 °C, while the elongation at break increased by a factor of 50.
