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Rubber bromine

BUR bromo-isobutene-isoprene rubber (brominated butyl rubber)... [Pg.947]

Another process for improving the bromination efficiency in rubber bromination processes is to conduct the reaction in the presence of elemental bromine and an aqueous solution of an organic azo compound such as 2,2 -azobisisobutyronitrile and sodium hypochlorite, potassium hypochlorite, or magnesium hypochlorite (42,43). [Pg.161]

Brominated butyl rubber Brominated isobutylene/isoprene copolymer. See Isobutylene/isoprene copolymer, brominated Brominated neopentyl glycol diglycidyl ether CAS 31452-80-9... [Pg.557]

Butyl rubber, brominated. See Isobutylene/isoprene copolymer, brominated Butyl rubber, chlorinated. See Isobutylene/isoprene copolymer, chlorinated Butyl salicylate... [Pg.644]

Synonyms BIIR Brominated butyl rubber Brominated isobutylene/isoprene copolymer Bromobutyl rubber 1,3-Butadiene, 2-methyl-, polymer with 2-methyl-1-propene, brominated Butyl rubber, brominated Isobutylene, isoprene polymer, brominated Definition Elastomer vulcanized by sulfur systems vulcanizate offers low gas permeability, good weather/ozone resist., better chem./heat resist, than butyl rubber... [Pg.2205]

BUR Brominated isobutylene-isoprene rubber (butyl rubber, brominated)... [Pg.70]

CH = CH — CH = CH — are said to have conjugated double bonds and react somewhat differently from the other diolefins. For instance, bromine or hydrogen is often added so that a product of the type -CHBr-CH=CH-CHBr- is formed. Also, these hydrocarbons participate in the Diels-Alder reaction see diene reactions). They show a tendency to form rubber-like polymers. Hydrocarbons not falling into these two classes are said to have isolated double... [Pg.142]

Carbon disulphide is an excellent solvent for fats, oils, rubber, sulphur, bromine and iodine, and is used industrially as a solvent for extraction. It is also used in the production of viscose silk, when added to wood cellulose impregnated with sodium hydroxide solution, a viscous solution of cellulose xanthate is formed, and this can be extruded through a fine nozzle into acid, which decomposes the xanthate to give a glossy thread of cellulose. [Pg.202]

Owing to the corrosive action of bromine upon corks j-jg 7, l. and rubber stoppers, ground glass joints are recommended in this preparation. The apparatus, depicted in Fig. Ill, 37, 1, is particularly convenient for the preparation of bromides from alcohols. A double surface condenser is fitted into D and a round-bottomed flask is fitted on to the ground glass joint at C R is a three-way stopcock f which permits the removal of the contents of A without disconnecting the apparatus. For preparations of moderate size, A has a capacity of 60 or 100 ml. and a 250 or 500 ml. flask is attached at C. [Pg.281]

Ozone ALkenes, aromatic compounds, bromine, diethyl ether, ethylene, HBr, HI, nitric oxide, nitrogen dioxide, rubber, stibine... [Pg.1210]

Butyl and Halobutyl Rubber. Butyl mbber is made by the polymerization of isobutylene a small amount of isoprene is added to provide sites for curing. It is designated HR because of these monomers. Halogenation of butyl mbber with bromine or chlorine increases the reaction rate for vulcanization and laminates or blends of halobutyl are feasible for production of mbber goods. It is estimated that of the - 100 million kg of butyl (UR) and halobutyl (HIIR) mbber in North America, over 90% is used in tire apphcations. The halogenated polymer is used in the innerliner of tubeless tires. Butyl mbber is used to make innertubes and curing bladders. The two major suppHers of butyl and halobutyl polymers in North America are Exxon and Bayer (see ELASTOLffiRS,SYNTHETIC-BUTYLrubber). [Pg.232]

Butyl rubber and other isobutylene polymers of technological importance iaclude various homopolymers and isobutylene copolymers containing unsaturation achieved by copolymerization with isoprene. Bromination or chlorination of the unsaturated site is practiced commercially, and other modifications are beiag iavestigated. [Pg.480]

Halogenated Butyl Rubber. The halogenation is carried out in hydrocarbon solution using elemental chlorine or bromine in a 1 1 molar ratio with enchained isoprene. The reactions ate fast chlorination is faster. Both chlorinated and brominated butyl mbbers can be produced in the same plant in blocked operation. However, there are some differences in equipment and reaction conditions. A longer reaction time is requited for hromination. Separate faciUties are needed to store and meter individual halogens to the reactor. Additional faciUties are requited because of the complexity of stabilising brominated butyl mbber. [Pg.483]

Halogenated Butyl Rubber. Halogenation at the isoprene site ia butyl mbber proceeds by a halonium ion mechanism leading to a double-bond shift and formation of an exomethylene alkyl haUde. Both chlorinated and brominated mbber show the predominate stmcture (1) (>80%), by nmr, as described eadier (33,34). Halogenation of the unsaturation has no apparent effect on the isobutylene backbone chains. Cross-linked samples do not crystallize on extension due to the chain irregularities introduced by the halogenated isoprene units. [Pg.484]

The low unsaturation requires powerful curing systems whilst the hydrocarbon nature of the polymer causes bonding problems. To overcome these problems chlorinated and brominated butyl rubbers (CIIR and BUR) have been introduced and have found use in the tyre industry. [Pg.302]

A somewhat different approach to the production of thermoplastic polyolefin rubbers has been adopted by Allied Chemical with their ET polymers. With these materials butyl rubber is grafted on to polyethylene chains using a phenolic material such as brominated hydroxymethyl phenol. The initial grades of these polymers, which were introduced commercially towards the end of the 1970s, had polyethylene butyl rubber ratios of 50 50 and 75 25. Both low-density and high-density polyethylene-based varieties were produced. [Pg.304]

A. 3-Amino-2,4,6-tribromohenzoic acid. The bromination apparatus consists of a 2-1. three-necked standard-taper flask A, equipped with a Trubore stirrer and attached by rubber stoppers and glass tubing to two filter flasks, B and C, as shown... [Pg.94]

Standard butyl rubber, which is a copolymer of isobutylene with about 2% of isoprene vulcanises in the same manner as natural rubber but, as it only contains a small proportion of polyisoprene, the cross-link percentage is much reduced. It is therefore not possible to make ebonite from a butyl rubber. The same vulcanisation chemistry, with some modifications, applies to ethylene-propylene terpolymers and brominated butyl rubber. [Pg.939]

Glass connections or rubber stoppers should be used throughout, as corks are rapidly disintegrated by the hot bromine. [Pg.18]

N)3C.CH2.CH2.Br mw 258.0 N 16.29% OB to C02 —12.40% yel liq. Prepn is by reacting powd Ag -y-trinitrobutyrate and bromine in carbon tetrachloride. The bromide burns rapidly and can be deton with a hammer blow Refs 1) Beil, not found 2) Anon, Synthesis of New Explosives Propellants , Quarterly Progress Rept No 7, US Rubber Co, Passaic, Contract Nord 10129.(1949), 10 11... [Pg.957]

FIGURE 11.12 Interaction energy density versus 4-methyl styrene content. (From Raboney, M., Gamer, R.T., Elspass, C.W., and Peiffer, D.G., Phase Behavior of Brominated Poly(Isobutylene-co-4-Methylstyrene)/ General Purpose Rubber Blends. Rubber Division, Proceedings of the American Chemical Society, Nashville, TN, Sept. 29-Oct. 2, 1998, Paper No. 36.)... [Pg.317]

The most prevalent approach to achieve long-lasting and nonstaining ozone protection of rubber compounds is to use an inherently ozone-resistant, saturated backbone polymer in blends with a diene rubber. The ozone-resistant polymer must be used in sufficient concentration (minimum 25 phr) and must also be sufficiently dispersed to form domains that effectively block the continuous propagation of an ozone-initiated crack through the diene rubber phase within the compound. Elastomers such as ethylene-propylene-diene terpolymers, halogenated butyl mbbers, or brominated isobutylene-co-para-methylstyrene elastomers have been proposed in combination with NR and/or butadiene rubber. [Pg.483]

Violent reactions have occurred between ozone and many chemicals, a small selection being acetylene, alkenes, dialkyl zincs, benzene/rubber solution, bromine, carbon monoxide and ethylene, diethyl ether, hydrogen bromide, and nitrogen oxide. [Pg.304]

Bromine reacts violently in contact with natural rubber, but more slowly with some synthetic rubbers. [Pg.115]

See Bromine trilluoride Antimony trichloride oxide Chlorinated rubber... [Pg.1875]

See other pages where Rubber bromine is mentioned: [Pg.1061]    [Pg.814]    [Pg.584]    [Pg.1061]    [Pg.814]    [Pg.584]    [Pg.346]    [Pg.501]    [Pg.180]    [Pg.187]    [Pg.537]    [Pg.679]    [Pg.256]    [Pg.130]    [Pg.42]    [Pg.340]    [Pg.475]    [Pg.873]    [Pg.10]    [Pg.180]    [Pg.187]    [Pg.537]    [Pg.679]    [Pg.143]   
See also in sourсe #XX -- [ Pg.7 , Pg.74 ]



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