[PDF] Phosphonated Lipids as Primary Plasticizers for PVC with Improved
Regarding all these results, PMO and PDE can be considered as efficient flame retardant primary plasticizers for PVC and can substitute phthalates in soft PVC based materials. Practical Applications: These biobased additives are elaborated as plasticizers for PVC improving flame retardancy.
Phosphonated Lipids as Primary Plasticizers for PVC with Improved Flame
The presence of the phosphonate group into the plasticizer structure explains the best thermal stability of the PVC films based on phosphonated plasticizer than that of based on DINP. Regarding all these results, PMO and PDE can be considered as efficient flame retardant primary plasticizers for PVC and can substitute phthalates in soft PVC based materials.
Phosphonated Lipids as Primary Plasticizers for PVC with
Regarding all these results, PMO and PDE can be considered as efficient flame retardant primary plasticizers for PVC and can substitute phthalates in soft PVC based materials. Practical...
A targeted review of bio-derived plasticizers with flame retardant
Bocqué M, Lapinte V, Courault V, Couve J, Cassagnau P, Robin J-J (2018) Phosphonated lipids as primary plasticizers for PVC with improved flame retardancy. Eur J Lipid Sci 120(1800062):1–10. Google Scholar Pritchard G (2017) Global demand for plasticizers continues to rise. Addit Polym 10:10–11.
Low‐molecular‐weight glycerol esters as plasticizers for poly(vinyl
Abstract Phthalates are the most important plasticizers used in the polymer industry. However, their fossil origin and the results of recent tests showing their potential negative effect on human health have encouraged the polymer industry to turn toward non‐phthalate plasticizers.
- Are lipids a primary plasticizer for PVC with improved flame retardancy?
- Bocqué M, Lapinte V, Courault V, Couve J, Cassagnau P, Robin J-J (2018) Phosphonated lipids as primary plasticizers for PVC with improved flame retardancy. Eur J Lipid Sci 120 (1800062):1–10
- Can cardanol-based phosphonate be a flame-retardant plasticizer for PVC?
- A novel cardanol-based phosphonate was synthesized as flame-retardant plasticizer for PVC. Phosphonate and long alkyl chain of CP induced flame retardancy and flexibility to PVC, respectively. PVC-CP system exhibited self-polymerization by simple heat treatment.
- Is cardanol phenylphosphonate a bio-based plasticizer for poly(vinyl chloride)?
- Considering the drawbacks of conventional plasticizers used for poly (vinyl chloride) (PVC), it is imperative to develop bio-based additives. Herein, bis (cardanyl) phenylphosphonate (CP), which is not only a flame retardant but also a plasticizer for PVC, was designed and synthesized from cardanol.
- Does cardanol phenylphosphonate impart flame retardant and plasticizing effect in PVC?
- However, only a few reports are available on cardanol-based additives that impart flame retardancy and plasticizing effect into PVCs. Herein, we described a bio-based flame-retardant plasticizer, bis (cardanyl) phenylphosphonate (CP), which simultaneously acts as a flame retardant and plasticizer for PVC.
- Is bis (cardanyl) phenylphosphonate a flame retardant plasticizer?
- Herein, we described a bio-based flame-retardant plasticizer, bis (cardanyl) phenylphosphonate (CP), which simultaneously acts as a flame retardant and plasticizer for PVC. It was demonstrated that the phosphonate groups and long alkyl chains of CP enhanced the flame retardancy and flexibility of PVC, respectively.
- Can phosphorus functionalized plasticizers be combined with PVC?
- These phosphorus functionalized plasticizers were then combined with PVC at 30 wt% loading levels, and the materials were characterized for mechanical properties and thermal properties (TGA, DSC), and a reference sample containing a diisononyl phthalate was included in the paper as well.
