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Sulfuric acid chloride esters hydrocarbons

The equihbrium shown in equation 3 normally ties far to the left. Usually the water formed is removed by azeotropic distillation with excess alcohol or a suitable azeotroping solvent such as benzene, toluene, or various petroleum distillate fractions. The procedure used depends on the specific ester desired. Preparation of methyl borate and ethyl borate is compHcated by the formation of low boiling azeotropes (Table 1) which are the lowest boiling constituents in these systems. Consequently, the ester—alcohol azeotrope must be prepared and then separated in another step. Some of the methods that have been used to separate methyl borate from the azeotrope are extraction with sulfuric acid and distillation of the enriched phase (18), treatment with calcium chloride or lithium chloride (19,20), washing with a hydrocarbon and distillation (21), fractional distillation at 709 kPa (7 atmospheres) (22), and addition of a third component that will form a low boiling methanol azeotrope (23). [Pg.214]

The addition takes place according to Markownikoff s rule. The addition of carbo lic acida to the double bonds of isobutylene and trimethyl-ethylene gives tertiary esters. A true equilibrium independent of sulfuric acid concentrations is established in the exothermic reaction. The addition does not go well with ethylene, but goes well with many of the higher alkenes, particularly with some of the terpenes. To avoid the polymerizing effects of sulfuric acid, various other catalysts, such as sulfonic acids, triethylamine, hydrofluoric acid, boron trifluoride, and cuprous chloride have been used. The addition may take place at room temperature or higher and is aided by pressure. The vapors of the acid and hydrocarbon may be passed over catalysts, such as activated carbon, heteropoly acids, or metal phosphates. ... [Pg.721]

Allylstarch can be blended with lower alkyl itaconates in the ratio from 2 1 to 10 1 and then copolymerized with a variety of coating materials to enhance coating plasticity, drying, and hardening.1028 Allylstarch can be polymerized into insoluble products using either sulfur chloride or disulfur dichloride.1029 The reaction product of allylstarch with propylene oxide was utilized as a dispersant for petroleum emulsions.1030 Novel resinous materials have been obtained from adducts of unsaturated esters of dienophilic dioic acids and cyclic polyenic hydrocarbons with mono- and di-allyl starch.1031... [Pg.222]

MERCURY(n) NITRATE (10045-94-0, anhydrous 7783-34-8, monohydrate) Hg(N03)2 H,0 Noncombustible solid. Light sensitive. A powerful oxidizer accelerates the burning of combustible materials. Violent reaction, or may form explosive materials, with reducing agents, including hydrides, nitrides, phosphorus, stannous chloride, and sulfides alkyl esters (forms explosive alkyl nitrates) combustible materials (especially if finely divided), phosphinic acid, hypophosphoric acid, metal powders petroleiun hydrocarbons. Forms heat- and/or shock-sensitive compounds with acetylene (forms explosive mercmy acetylide), ethanol and other alcohols (may form explosive mercury fulminates), ferrocene, isobutene, phosphine gas (forms heat- and shock-sensitive precipitate) potassiiun cyanide, sulfur. Incompatible with strong acids, acetic anhydride, ammonia, ammonium hexacyanofenate(II), organic azides, citric acid, hydrazinium perchlorate, isopropyl chlorocarbonate, nitrosyl perchlorate, sodium thiosulfate, sulfamic acid, thiocyanates, hydrozoic acid, methyl isocyanoacetate, sodium peroxyborate, trinitrobenzoic acid, urea nitrate. Aqueous solution corrodes metals. [Pg.655]

Concentrated, oxidising acids such as sulfuric, nitric and chromic acids which cause decomposition the rate of decomposition may be accelerated in the presence of metals, for example, zinc and iron. Attacked by bromine and fluorine even at room temperature. Unsuitable for use in contact with aromatic and chlorinated hydrocarbons, ketones, nitro-compounds, esters and cyclic ethers these penetrate the PVC and cause marked swelling. Can have a high impact strength but can be very notch sensitive. Methylene chloride can be used to detect an under-gelled compound. [Pg.145]


See other pages where Sulfuric acid chloride esters hydrocarbons is mentioned: [Pg.489]    [Pg.258]    [Pg.405]    [Pg.435]    [Pg.125]    [Pg.599]    [Pg.111]    [Pg.595]    [Pg.145]    [Pg.27]    [Pg.717]    [Pg.26]    [Pg.29]    [Pg.46]    [Pg.73]    [Pg.651]    [Pg.764]    [Pg.31]    [Pg.31]    [Pg.139]    [Pg.357]   
See also in sourсe #XX -- [ Pg.26 , Pg.58 ]




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Chloride hydrocarbonate

Esters hydrocarbons

Hydrocarbons acids

Hydrocarbons, hydrocarbon sulfuric acid esters

Sulfur esters

Sulfuric acid chloride esters

Sulfuric acid esters

Sulfuric chloride

Sulfuric esters

Sulfurous acid esters

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