17 Aromatic Phosphate Plasticizers | Toxicological Risks
17 Aromatic Phosphate Plasticizers | Toxicological Risks of Selected Flame-Retardant Chemicals |The National Academies Press Previous: 16 Tris (1,3-dichloropropyl-2) Phosphate Page 387 Suggested Citation: "17 Aromatic Phosphate Plasticizers ." National Research Council. 2000. Toxicological Risks of Selected Flame-Retardant Chemicals.
17 Aromatic Phosphate Plasticizers - National Center
17 Aromatic Phosphate Plasticizers THIS chapter reviews the physical and chemical properties, toxicokinetics, toxicological, epidemiological, and exposure data on tricresyl phosphate (TCP), an aromatic phosphate ester. TCP is one of several aromatic phosphate esters used commercially as flame retardants and plasticizers.
Databook of Plasticizers - 2nd Edition
Over 100 different data fields are provided, from general information, such as molecular structure and formula, to physical properties, health and safety information, ecological properties, and recommendations regarding appropriate use and performance of each plasticizer.
Santicizer Phosphate Ester Flame Retardant Plasticizers
Plas-Chek and Lankroflex Epoxy Costabilizers and Secondary Plasticizers Lankroflex & Plas-Chek epoxidized soybean oil (ESO), Lankroflex epoxidized linseed oil (ELO) and Lankroflex ED6 are secondary heat stabilizers that are used in a wide variety of flexible PVC formulations.
Phosphate esters - Plasticisers - Information Center
While aromatic phosphate esters are typically used in PVC, TPU, thermosets and rubbers, aliphatic phosphates are mainly used in polyurethane foams. In PVC, the phosphate esters offer good gelling behaviour and low temperature performances.
- Is tricresyl phosphate a flame retardant?
- The subcommittee also identified data gaps and recommended research relevant for determining the health risk from exposure to TCP. Tricresyl phosphate (TCP) is one of several aromatic phosphate esters used commercially as a flame retardant. The physical and chemical properties of TCP are summarized in Table 17–1.
- What is tricresyl phosphate (TCP)?
- THIS chapter reviews the physical and chemical properties, toxicokinetics, toxicological, epidemiological, and exposure data on tricresyl phosphate (TCP), an aromatic phosphate ester. TCP is one of several aromatic phosphate esters used commercially as flame retardants and plasticizers.
- Can phosphate plasticizers reduce fire hazard?
- It is found that for the materials based on epoxy oligomers and synthetic rubbers, no phosphate plasticizers can be practically used for the reduction of the fire hazard; such plasticizers only increase the flammability of PMC.
- Do aromatic phosphate esters have a dermal RfD for TCP?
- Quantitative toxicity assessments of aromatic phosphate esters was estimated using toxicity data for TCP. Therefore, these assessments will be overly conservative for the toxicity of other aromatic phosphate esters. No studies were identified that could be used to derive a dermal RfD for TCP.
- Does cyclic phosphate cause neurotoxicity?
- However, it is possible that cyclic phosphate could be formed from the metabolism of mixed, ortho-cresol-containing TCP isomers and produce neurotoxic effects if these isomers are present. No studies were identified that evaluated the reproductive and developmental effects of TCP in humans.
