Plasticizers – Benefits, Trends, Health, and Environmental
Plasticizers soften the PVC to make it flexible and bendable. This opens up a huge range of possibilities for new applications. One of the main benefits of plasticizers is the durability they confer onto PVC applications, which can ensure high performances for up to 50 years.
Current Status of Plasticizer Research | SpringerLink
In PVC gloves produced in earlier times, phthalate plasticizers were used by 80% among the overall plasticizers, including DOP, DBP, DIBP, BBP, DINP, etc. DOP is called an all-round plasticizer because of its advantages of high plasticization performance, good PVC compatibility, low exudation, low volatility, softness, high brightness, etc.
A sustainable poly (vinyl chloride) plasticizer derivated
Generally, pure PVC has a high glass transition temperature ( Tg) and low thermal stability. Therefore, a plasticizer is commonly added into PVC during processing in an effort to increase its stability, flexibility and workability [Bocque et al., 2016]. Phthalate compounds are the dominant plasticizers used for PVC.
Plasticizer product range for a sustainable business
Palatinol N is a versatile low-viscosity plasticizer for PVC with good low-temperature performance and low volatility. Palatinol N can be used to plasticize PVC for the manufacture of products for applica-tions that demand low plasticizer volatility, good elasticity at low temperatures and low viscosity for processing using the plastisol
Green plasticizers derived from epoxidized soybean oil
With the exploitation of petroleum resources and the gradual reduction of resource reserves, the output and price of these phthalate plasticizers are fluctuant. On the other hand, plasticizers removed from PVC cause much of the damage to the environment, as well as animals and humans [4].
- What is the global production of plasticizers for PVC?
- In 2020, the global annual production of plasticizers for PVC amounted to 9965.5 kilotons . Despite the availability of diverse plasticizers, petroleum-based plasticizers, especially di (2-ethylhexyl) phthalate (DEHP), remain dominant in the global market (65 %) .
- Can a bio-derived polymer make high-performance plastics with low energy consumption?
- Here, we present a composite strategy by in situ polymerizing a petroleum-based monomer in the presence of an industrialized bio-derived polymer to construct high-performance plastics with low energy consumption during production, processing, and recycling (Figure 1a).
- Is PVC a plasticizer?
- Poly (vinyl chloride) (PVC) ranks as the third-most widely produced synthetic polymer globally [1, 2]. To enhance its versatility, plasticizers are frequently added to make PVC products soft and flexible. In 2020, the global annual production of plasticizers for PVC amounted to 9965.5 kilotons .
- Are bio-based plasticizers sustainable?
- Synthesized bio-based plasticizer shows superior permanence and migration resistance. The increasing global demand for sustainable alternatives to petroleum-based plasticizers, particularly in poly (vinyl chloride) (PVC) products, has intensified the exploration of bio-based options derived from renewable resources such as plant oils.
- Which plasticizers are compatible with PVC?
- In addition to ESO and EFAME, DOTP and acetyl tributyl citrate (ATBC) were chosen as reference plasticizers. Notably, ESO, with a high epoxy value of ≥6.0, was selected to ensure good compatibility with PVC.
- Do Bio-plasticizer content and TPU incorporation influence mechanical properties of PVC-based blends?
- The results demonstrate that both the bio-plasticizer content and TPU incorporation are key factors in modifying the mechanical properties of PVC-based blends, offering a versatile approach for tailoring material characteristics to meet specific application requirements.
