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Aromatics butyl

Ketone mixtures witii aromatic Butyl rubber Natural rubber... [Pg.230]

Chem. Descrip. Linear med. m.w. sat. polyester resin in aromatic/butyl glycol... [Pg.291]

The above is a general procedure for preparing trialkyl orthophosphates. Similar yields are obtained for trimethyl phosphate, b.p. 62°/5 mm. triethyl phosphate, b.p. 75-5°/5 mm. tri-n-propyl phosphate, b.p. 107-5°/5 mm. tri-Mo-propyl phosphate, b.p. 83-5°/5 mm. tri-wo-butyl phosphate, b.p. 117°/5-5 mm. and tri- -amyl phosphate, b.p. 167-5°/5 mm. The alkyl phosphates are excellent alkylating agents for primary aromatic amines (see Section IV,41) they can also be ua for alkylating phenols (compare Sections IV,104-105). Trimethyl phosphate also finds application as a methylating agent for aliphatie alcohols (compare Section 111,58). [Pg.304]

The selectivity relationship merely expresses the proportionality between intermolecular and intramolecular selectivities in electrophilic substitution, and it is not surprising that these quantities should be related. There are examples of related reactions in which connections between selectivity and reactivity have been demonstrated. For example, the ratio of the rates of reaction with the azide anion and water of the triphenylmethyl, diphenylmethyl and tert-butyl carbonium ions were 2-8x10 , 2-4x10 and 3-9 respectively the selectivities of the ions decrease as the reactivities increase. The existence, under very restricted and closely related conditions, of a relationship between reactivity and selectivity in the reactions mentioned above, does not permit the assumption that a similar relationship holds over the wide range of different electrophilic aromatic substitutions. In these substitution reactions a difficulty arises in defining the concept of reactivity it is not sufficient to assume that the reactivity of an electrophile is related... [Pg.141]

Cm.OROCARBONSANDCm.OROHYDROCARBONS - TOXIC AROMATICS] (Vol 6) Chlorinated butyl rubber... [Pg.194]

Pressure sensitive adhesives typically employ a polymer, a tackifier, and an oil or solvent. Environmental concerns are moving the PSA industry toward aqueous systems. Polymers employed in PSA systems are butyl mbber, natural mbber (NR), random styrene—butadiene mbber (SBR), and block copolymers. Terpene and aUphatic resins are widely used in butyl mbber and NR-based systems, whereas PSAs based on SBR may require aromatic or aromatic modified aUphatic resins. [Pg.358]

Ketones and esters are required for C-type inks. Types of esters are ethyl acetate, isopropyl acetate, normal propyl acetate, and butyl acetate. From the ketone class, acetone or methyl ethyl ketone (MEK) can be used. The usual solvent for D-type inks are mixtures of an alcohol, such as ethyl alcohol or isopropyl alcohol, with either aUphatic or aromatic hydrocarbons. Commonly used mixtures are 50/50 blends by volume of alcohol and aUphatic hydrocarbon. [Pg.252]

Aliphatic Isocyanates. Aflphatic diisocyanates have traditionally commanded a premium price because the aflphatic amine precursors ate mote expensive than aromatic diamines. They ate most commonly used in appHcafions which support the added cost or where the long-term performance of aromatic isocyanates is unacceptable. Monofuncfional aflphatic isocyanates, such as methyl and -butyl isocyanate, ate used as intermediates in the production of carbamate-based and urea-based insecticides and fungicides (see Fungicides, agricultural Insectcontroltechnology). [Pg.459]

Several stabilizers are useful in minimizing oxidative degradation during thermoplastic processing or in the bulk soHd. Phenothiazine, hindered phenohc antioxidants such as butylated hydroxytoluene, butylatedhydroxyanisole, and secondary aromatic amines in concentrations of 0.01—0.5% based on the weight of polymer, are effective. [Pg.342]

All lation of Aromatic Amines and Pyridines. Commercially important aromatic amines are aniline [62-53-3] toluidine [26915-12-8], phenylenediamines [25265-76-3], and toluenediamines [25376-45-8] (see Amines, aromatic). The ortho alkylation of these aromatic amines with olefins, alcohols, and dienes to produce more valuable derivatives can be achieved with soHd acid catalysts. For instance, 5-/ f2 butyl-2,4-toluenediamine (C H gN2), which is used for performance polymer appHcations, is produced at 85% selectivity and 84% 2,4-toluenediamine [95-80-7] (2,4-4L)A)... [Pg.54]

Low concentiations of alkylated paiaphenylenediamines such as -di-ti t-butyl-j )-phenylenediamine [69796 7-OJ are added to gasoline to inhibit oxidation (see Amines, AROMATic-PHENYLENEDiAMiNEs). [Pg.225]

Alkylation of isobutylene and isobutane in the presence of an acidic catalyst yields isooctane. This reaction proceeds through the same mechanism as dimerization except that during the last step, a proton is transferred from a surrounding alkane instead of one being abstracted by a base. The cation thus formed bonds with the base. Alkylation of aromatics with butylenes is another addition reaction and follows the same general rules with regard to relative rates and product stmcture. Thus 1- and 2-butenes yield j -butyl derivatives and isobutylene yields tert-huty derivatives. [Pg.364]

Sulfonamides. A/-Halo-A/-alkylsulfonamides, RS02NR X, are relatively stable distillable Hquids. Under the influence of uvlight they form 1 1 adducts with olefins (67,100). Ai-/-Butyl derivatives rearrange forming precursors to cyclopropanes and sultams. A/-Halo-A/-sodioalk5lsulfonamidates, RS02NClNa, have been less extensively studied than their aromatic counterparts (70). The stabiHty of these compounds approaches that of the aromatic sulfonamides (80). The dodecyl compound exhibits properties of both a disinfectant and a surfactant. [Pg.456]

Physical and Chemical Properties. The (F)- and (Z)-isomers of cinnamaldehyde are both known. (F)-Cinnamaldehyde [14371-10-9] is generally produced commercially and its properties are given in Table 2. Cinnamaldehyde undergoes reactions that are typical of an a,P-unsaturated aromatic aldehyde. Slow oxidation to cinnamic acid is observed upon exposure to air. This process can be accelerated in the presence of transition-metal catalysts such as cobalt acetate (28). Under more vigorous conditions with either nitric or chromic acid, cleavage at the double bond occurs to afford benzoic acid. Epoxidation of cinnamaldehyde via a conjugate addition mechanism is observed upon treatment with a salt of /-butyl hydroperoxide (29). [Pg.174]

Paint and varnish manufacturing Resin manufacturing closed reaction vessel Varnish cooldng-open or closed vessels Solvent thinning Acrolein, other aldehydes and fatty acids (odors), phthalic anhydride (sublimed) Ketones, fatty acids, formic acids, acetic acid, glycerine, acrolein, other aldehydes, phenols and terpenes from tall oils, hydrogen sulfide, alkyl sulfide, butyl mercaptan, and thiofen (odors) Olefins, branched-chain aromatics and ketones (odors), solvents Exhaust systems with scrubbers and fume burners Exhaust system with scrubbers and fume burners close-fitting hoods required for open kettles Exhaust system with fume burners... [Pg.2177]

Na, /-BuOH, 70-80°, 2 h, 78%. In this example sodium in /-butyl alcohol cleaves two aiyl benzyl ethers and reduces a double bond that is conjugated with an aromatic ring nonconjugated double bonds are stable. [Pg.157]

KOH, 18-crown-6, toluene, 100°, 5 h, 94% yield.These conditions were used to cleave the /-butyl ester from an aromatic ester they are probably too harsh to be used on more highly functionalized substrates. [Pg.246]

Peroxides. These are formed by aerial oxidation or by autoxidation of a wide range of organic compounds, including diethyl ether, allyl ethyl ether, allyl phenyl ether, dibenzyl ether, benzyl butyl ether, n-butyl ether, iso-butyl ether, r-butyl ether, dioxane, tetrahydrofuran, olefins, and aromatic and saturated aliphatic hydrocarbons. They accumulate during distillation and can detonate violently on evaporation or distillation when their concentration becomes high. If peroxides are likely to be present materials should be tested for peroxides before distillation (for tests see entry under "Ethers", in Chapter 2). Also, distillation should be discontinued when at least one quarter of the residue is left in the distilling flask. [Pg.5]

Concern for the conservation of energy and materials maintains high interest in catalytic and electrochemistry. Oxygen in the presence of metal catalysts is used in CUPROUS ION-CATALYZED OXIDATIVE CLEAVAGE OF AROMATIC o-DIAMINES BY OXYGEN (E,Z)-2,4-HEXADIENEDINITRILE and OXIDATION WITH BIS(SALI-CYLIDENE)ETHYLENEDIIMINOCOBALT(II) (SALCOMINE) 2,6-DI-important industrial method, is accomplished in a convenient lab-scale process in ALDEHYDES FROM OLEFINS CYCLOHEXANE-CARBOXALDEHYDE. An effective and useful electrochemical synthesis is illustrated in the procedure 3,3,6,6-TETRAMETHOXY-1,4-CYCLOHEX ADIENE. ... [Pg.129]

Vinyl butyl ether 9.4 Aromatic Ethers Methyl phenyl ether (anisole) 255 437 22... [Pg.375]

See other pages where Aromatics butyl is mentioned: [Pg.780]    [Pg.1067]    [Pg.76]    [Pg.29]    [Pg.553]    [Pg.266]    [Pg.356]    [Pg.64]    [Pg.159]    [Pg.159]    [Pg.481]    [Pg.360]    [Pg.224]    [Pg.345]    [Pg.461]    [Pg.531]    [Pg.306]    [Pg.365]    [Pg.193]    [Pg.412]    [Pg.490]    [Pg.269]    [Pg.374]    [Pg.396]    [Pg.104]    [Pg.281]    [Pg.634]    [Pg.2461]   
See also in sourсe #XX -- [ Pg.20 ]



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Aromatic compounds tert-butylated

Tert-Butyl hydroperoxide aromatics

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