Recent Developments of Biobased Plasticizers and Their Effect
This review paper covers the utilization of traditional and biobased plasticizers for PVC plasticization, and their effect on environmental, mechanical, and thermal properties has been reported. Cited By This article is cited by 53 publications. Chetan V. Rajput, Rupa B. Mukherjee, Nandhibatla V. Sastry, Navin P. Chikhaliya.
Plasticization Effect of Bio-Based Plasticizers from Soybean
Plasticization Effect of Bio-Based Plasticizers from Soybean Oil for Tire Tread Rubber Modified soybean oil (MSO) is synthesized from soybean oil (SO) and sulfur, aiming to reduce the double bond quantity of SO and avoid harmful effects on the crosslink density and mechanical properties of rubber.
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...
Plasticization Effect of Bio-Based Plasticizers from Soybean
Modified soybean oil (MSO) is synthesized from soybean oil (SO) and sulfur, aiming to reduce the double bond quantity of SO and avoid harmful effects on the crosslink density and mechanical properties of rubber. MSO modified with different weight percentages of sulfur is then used to plasticize tire tread rubber (TR). It is found that the crosslink density and modulus of MSO- plasticized
Plasticization Effect of Bio-Based Plasticizers
At the same additive content of plasticizer, the plasticization effect of MSO-6% and a commonly used aromatic hydrocarbon plasticizer (AO) is compared to determine the potential application...
- What is the current state of bio-based plasticizers in PLA applications?
- In summary, the current state of bio-based plasticizers in PLA applications reflects rapid development and significant growth prospects. Future research should focus on bio-based plasticizers with synergistic effects such as plasticizing, toughening, antimicrobial, and anti-migration properties.
- Can bio-based plasticizers replace conventional plastic goods?
- The challenge to implement this new class of natural-based plasticizers matches the increasing interest of material researchers and industries in new bio-based materials, made from renewable resources with the potential, not to totally replace but to reduce the use of conventional plastic goods.
- What are biodegradable plasticizers?
- Biodegradable plasticizers such as soybean oil (SO), epoxidized soybean oil (ESO), dibutyl phthalate (DBP) and triethyl citrate (TEC) were added to poly (3-hydroxybutyrate-co-3-hydroxyvalerate) (PHBV) films, enhancing their thermal and mechanical properties. TEC or DBP presented better plasticizing effects than SO and ESO for PHBV .
- What is the future of plasticizers?
- In the future, research will focus on formulating plasticizers that offer added advantages such as enhanced toughness, antimicrobial features, and reduced migration, in line with the industry's growing emphasis on sustainability. 1. Introduction
- Can biobased plasticizer be used as a heat stabilizer?
- The plasticizing effect of single biobased plasticizer is not good. Biobased plasticizer with synergistic effects is required. There exists the trade-off effect between the molecular weight and the compatibility. Epoxidized isosorbide ester can be used as a heat stabilizer. The authors declare that they have no conflict of interest.
- 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.
