Flame retardants polymeric brominated

Table 6. Polymeric and Oligomeric Brominated Additive Flame Retardants...

Brominated Styrene. Dibromostyrene [31780-26 ] is used commercially as a flame retardant in ABS (57). Tribromostyrene [61368-34-1] (TBS) has been proposed as a reactive flame retardant for incorporation either during polymerization or during compounding. In the latter case, the TBS could graft onto the host polymer or homopolymerize to form poly(tribromostyrene) in situ (58). 

Incineration of a collection of polymers with 10 different kinds of brominated flame retardants has been studied under standardized laboratory conditions using varying parameters including temperature and air flow. Polybrominated diphenyl ethers like the deca-, octa-, and pentabromo compounds yield a mixture of brominated dibenzofurans while burning in polymeric matrices. Besides cyclization, debromination/hydrogenation is observed. Influence of matrix effects and burning conditions on product pattern has been studied the relevant mechanisms have been proposed and the toxicological relevance is discussed. 

Aromatic and aliphatic bromine compounds play an important role as industrial products, e.g. special products are widely used as flame retardants for polymeric materials (ref. 1). Because there is an increasing interest and concern about the behaviour and fate of anthropogenic compounds in the environment (ref. 2), we have studied the physical behaviour and chemical reactivity of these products which are relevant to the environment. The main object is the study of their thermal behaviour during incineration, as well as photolytic reactions. Of prime concern is... 

Most circuit boards are FR-4 boards that meet standards for fire safety by the use of brominated epoxy resins in which the reactive flame-retardant tetrabromobisphenol A (TBBPA) forms part of the polymeric backbone of the resin. Alternative flame-retardant materials are used in only 3-5 per cent of the FR-4 boards, but additional alternative flame-retardant materials are also imder development. Little information exists concerning the potential environmental and human health impacts of the materials which are being developed as alternatives to those used today that are based on brominated epoxy resins. 

BFRs are one of the last classes of halogenated compounds that are still being produced worldwide and used in high quantities in many applications. In order to meet fire safety regulations, flame retardants (FRs) are applied to combustible materials such as polymers, plastics, wood, paper, and textiles. Approximately 25% of all FRs contain bromine as the active ingredient. More than 80 different aliphatic, cyclo-aliphatic, aromatic, and polymeric compounds are used as BFRs. BFRs, such as polybrominated biphenyls (PBBs), polybrominated diphenyl ethers (PBDEs), hexabromocyclododecane (HBCD), and tetrabromobisphenol A (TBBPA), have been used in different consumer products in large quantities, and consequently they were detected in the environment, biota, and even in human samples [26, 27]. 

Three flame retardants were compared in this study, namely, a brominated polycarbonate oligomer (58% bromine), a brominated polystyrene (68% bromine), and a brominated triaryl phosphate ester (60% bromine plus 4% phosphorus). These are described in Table I. Figures 1 and 2 compare the thermal stability of the brominated phosphate with commercial bromine-containing flame retardants by thermogravimetric analysis (TGA) and by differential scanning calorimetry (DSC). The brominated phosphate melts at 110°C and shows a 1% weight loss at 300°C. Brominated polycarbonate and brominated polystyrene are polymeric and are not as volatile at elevated temperatures as the monomeric flame retardants. 

It was observed that brominated phosphate blends easily into various resins in a single or twin screw extruder. Compounding rates also are increased. It has been assumed that this is partly due to its high degree of solubility in aromatic solvent. This is in contrast with the polymeric flame retardants which are more difficult to incorporate or compound into various resins. 

A study was conducted in a Brabender Plastic-Corder. Brominated phosphate was compared with the polymeric flame retardants brominated... 

For quality control reasons, rapid screening methods are needed to identify the volatiles in polymeric materials collected for recycling. HS-SPME-GC-MS was shown to be a fast and sensitive method to screen for brominated flame retardants in recycled polyamide materials [78]. HS-SPME effectively extracted several brominated compounds, all possible degradation products from the common flame-retardant Tetrabromobisphenol A from recycled polyamide 6.6. Furthermore, the high extraction capacity of the PDMS/DVB stationary phase towards aromatic compounds was demonstrated, as the HS-SPME-GC-MS method allowed the extraction and iden-tiflcation of brominated benzenes, from a complex matrix only containing trace amounts of analytes. In addition, degradation products from an antioxidant, a hindered phenol, were extracted. Figure 14 shows a typical chro-... 

These foams can then be extended into the area of flame-retardant materials, where methyl oleate-polyesters were used as polyols in the synthesis of silicon-containing polyurethanes [89]. Despite not strictly being foams, methyl oleate, soybean and sunflower oils have also been investigated to produce semi-rigid flame retardant materials [90]. In this instance, they were brominated, acrylated and then radically copolymerized with styrene to form the polymeric material. 

Properties Wh. to off-wh. powd. insol. in common org. soivs. dens. 2.05 m.p. 190-220 C Toxicology LD50 (oral, rat) > 5000 mg/kg mildly Irritating to eyes and skin Uses Polymeric flame retardant for engineering thermoplastics, PET, PBT, nylon, PP, and PS Manuf./Distrib. Dead Sea Bromine http //WWW. dsbg. com... 

Brominated polymeric organic flame-retardant additives... 

Poly (ethylene terephthalate) (PET) was first introduced as a synthetic fibre when flameretarded by grafting with bromostyrene. Later PET and poly(butylene terephthalate) (PBT) emerged as engineering plastics, so that their more effective flame-retardance became of crucial importance. Diphenyls and diphenyl oxides at different degrees of bromination as well as brominated polymeric flame-retardants have been proposed (e.g. PBB-PA, Dead Sea PO 64 P, Great Lakes.) ... 

Interpenetrating polymer network varnishes are composed of the phenolic resin, an epoxy resin, flame retardants, for example brominated epoxies or acrylates, and triphenylphosphate, polymerization initiators for radical polymerization of the acrylates and curing accelerators to catalyze the reaction between epor groups and phenolic groups. 

Polymeric epoxy resins Brominated flame retardants - [24]... 

Eventually, a bromoacrylate ester is obtained that can be polymerized and also imparts flame resistance by the bromine groups. However, bromine-based flame retardant resins are releasing hydrogen bromide during combustion, which is toxic and corrosive (83,84). 

F-2016 is a brominated epoxy oligomer with around 50% bromine and a molecular weight of 1600 designed to ensure optimal properties in styrenic copolymers. Brominated epoxy oligomers offer a combination of high flame retardant efficiency, UV stability, good mechanical properties and thermal stability. They are non-blooming due to their physicochemical properties and polymeric... 

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