Trihexyl O-acetylcitrate CAS 24817-92-3: Properties, Applications, and Benefits as an Environmentally Benign Plasticizer
Discover the advantages of Trihexyl O-acetylcitrate as a sustainable plasticizer, ideal for enhancing biopolymer flexibility and creating eco-friendly products. Learn more about its unique properties and applications.
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Trihexyl O-acetylcitrate
As a leading supplier in China, we offer Trihexyl O-acetylcitrate (CAS 24817-92-3), a key component for those seeking environmentally benign plasticizers. Its primary value lies in its ability to significantly improve the flexibility and workability of various biopolymer-based materials by effectively lowering their glass transition temperature. This makes it an excellent choice for manufacturers looking to enhance material performance while adhering to sustainability principles.
- Enhancing Biopolymer Flexibility: Trihexyl O-acetylcitrate is crucial for lowering glass transition temperature of plastics, thereby increasing their pliability and ease of processing.
- Sustainable Material Solutions: As an environmentally benign plasticizer for biopolymers, it supports the development of greener alternatives in material science.
- Improved Product Safety: It contributes to creating safer, more sustainable consumer goods by offering an alternative to traditional plasticizers with potential health concerns.
- Optimized Mechanical Properties: This compound aids in achieving desired mechanical attributes in plastics without compromising their essential biodegradability, a key aspect when discussing sustainable plasticizer in consumer goods.
Advantages Offered by the Product
Enhanced Material Flexibility
Trihexyl O-acetylcitrate excels at improving flexibility of biopolymer materials, making them easier to shape and utilize in a wider range of applications. This is a significant advantage for product designers and manufacturers.
Environmental Responsibility
Its classification as an environmentally benign plasticizer aligns with global trends towards sustainability. By choosing this product, companies demonstrate a commitment to greener chemistry and responsible manufacturing.
Broad Application Potential
The compound's ability to lower glass transition temperature of plastics makes it suitable for diverse industries, from packaging to consumer goods, offering a versatile solution for various formulation needs.
Key Applications
Biopolymer Modification
Used to enhance the processing and physical properties of bioplastics, aligning with the demand for sustainable plasticizer in consumer goods and advanced material science.
Consumer Product Manufacturing
Contributes to the creation of safer and more sustainable end-products, a critical consideration when discussing environmentally benign plasticizer for biopolymers.
Material Science Research
Integral in studies focused on lowering glass transition temperature of plastics and improving overall material performance, driving innovation in polymer science.
Flexible Material Development
Enables the development of materials with desired pliability and workability, supporting the goal of improving flexibility of biopolymer materials for various industrial needs.