Improved Eco-Friendliness of a Common Flame Retardant through Inclusion
Triphenyl phosphate (TPP) is used as a plasticizer and a flame retardant worldwide. However, in recent years, TPP has been detected in indoor/outdoor air and biota at high concentrations, and exposure to TPP has been indicated as possibly leading to obesity and osteoporosis in humans.
Triphenyl phosphate
Triphenyl phosphate has been used widely as a flame retardant and plasticizer. [4] It has been used as a flame retardant for a variety of materials, including electronic equipment, PVC, hydraulic fluids, glues, in nail polishes, and casting resins.
Santicizer Phosphate Ester Flame Retardant Plasticizers
Our phosphate ester-based materials are non-halogenated and perform with the same strong plasticizing capabilities of the other Santicizer plasticizers, including high plasticizing efficiency, superior compatibility in multiple polymer systems, and faster fusion in PVC applications. Specifications & Attributes Fire Mechanisms and Phosphate Esters
Flame Retardants - Chemical Safety Facts
Triphenyl phosphate (TPP) TPP is a compound used as a flame retardant in electronics, PVC, glues, casting resins and hydraulic fluids. Tricresyl phosphate (TCP) TCP is an additive flame retardant plasticizer for vinyl resin and chloroprene rubber. Phenol, isopropylated, phosphate (3:1) (PIP 3:1)
Firemaster 550 and its components isopropylated triphenyl phosphate
FM550 is a proprietary mixture consisting of brominated and aryl phosphate ester compounds. The mixture is com- prised of the following chemicals: bis (2-ethylhexyl) tetrabromophthalate (TBPH) (8%), 2-ethylhexyl-2,3,4,5-tetrabromo benzoate (TBB) (30%), triphenyl phosphate (TPP) (17%) and isopropylated triphenyl phosphates (IPTP) (45%) [16,17].
- Is TPP a flame retardant plasticizer?
- TPP is a non‐halogen flame retardant plasticizer for phenolic resin‐based, copper-clad laminate, cellulose resin, vinyl resin and rubber, and some engineering plastics such as PPO. These properties are typical but do not constitute a specification either in part or as a whole.
- What is flame retardant composite phase change material (CPCM)?
- Multifunctional flame retardant composite phase change material (CPCM) has prepared. CPCM with methylphenyl silicone (MPS)/triphenyl phosphate (TPP) can show fireproof. CPCM including MPS and TPP exhibits well flame retardant due to synergizing effect. Flame retardant CPCM can control and balance the temperatures among battery module.
- Is phosflex 71B a flame retardant plasticizer?
- It is an effective flame retardant plasticizer with good compatibility in PVC and other plastics such as modified PPO and PC/ABS alloys. When formulated with conventional plasticizers, Phosflex®71B yields cost-effective systems balanced for flame retardancy and plasticizer efficiency.
- Is CPCM flame retardant?
- CPCM with methylphenyl silicone (MPS)/triphenyl phosphate (TPP) can show fireproof. CPCM including MPS and TPP exhibits well flame retardant due to synergizing effect. Flame retardant CPCM can control and balance the temperatures among battery module. CPCM with MPS and TPP will inhibit thermal propagation and avoid thermal hazard.
- Why are MPs and TPP flame retardants homogeneously dispersed in PA/SBS?
- Secondly, MPS and TPP as flame retardants are homogeneously dispersed in PA/SBS to inhibit flammability characteristics owing to the synergistic effect of flame-retardant additions. Thirdly, EG with porous structure as a thermally conductive enhancer can built efficient heat conductive path to promote transferring heat capacity.
- How does thermal decomposition of TPP affect CPCM?
- The thermal decomposition of TPP can produce phosphorus-containing compounds and reduce the concentration of reacting radicals in the flame zone to form a burst effect, which promotes the CPCM with excellent flame retardancy and self-extinguish capability, existing gas-phase flame retardant effect.
