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Urea properties

Synthetic, from MnSO, and Urea Properties SEM images and XRD patterns available [1427,2455]. [Pg.689]

Chem. Descrip. Copolymer alkyd resin in VM P naphtha/xylene Uses Alkyd for fast-dry enamels, aerosols, general industrial coatings Features Flexible, tough exc. aliphatic tolerance cures with urea Properties Gardner 5 max. color dens. 7.45 Ib/gal vise. (Gardner-Holdt) Z1 -Z3 acid no. 14 max. 50% NV Setyrene 13-2424 [Akzo Nobel Resins]... [Pg.736]

Method of synthesis Designation of hybrid dispersion Double bonds in polyurethane- urea Properties of dispersions ... [Pg.303]

Method of Synthesis Designation of Hybrid Dispersion Double bonds in polyurethane-urea Properties of films ... [Pg.304]

Urea oxalate is also sparingly soluble in amyl alcohol and since urea is soluble in this alcohol, the property may be utilised in separating urea from mixtures. An aqueous extract of the mixture is rendered slightly alkaline with sodium hydroxide solution and extracted with ether this removes all the basic components, but not urea. The residual aqueous solution is extracted with amyl alcohol (to remove the urea) upon adding this extract to a solution of oxalic acid in amyl alcohol crystalline urea oxalate is precipitated. [Pg.442]

In the introduction we noted that both Berzelius and Wohler were fascinated by the fact that two different compounds with different properties ammonium cyanate and urea pos sessed exactly the same molecular formula CH4N2O Berzelius had studied examples of similar phenomena earlier and invented the word isomer to describe different compounds that have the same molecular formula... [Pg.23]

Properties Thermoplastic elastomers Urea formaldehyde, alpha-cellulose filled Vinyl ... [Pg.1058]

Uses. Furfuryl alcohol is widely used as a monomer in manufacturing furfuryl alcohol resins, and as a reactive solvent in a variety of synthetic resins and appHcations. Resins derived from furfuryl alcohol are the most important appHcation for furfuryl alcohol in both utihty and volume. The final cross-linked products display outstanding chemical, thermal, and mechanical properties. They are also heat-stable and remarkably resistant to acids, alkaUes, and solvents. Many commercial resins of various compositions and properties have been prepared by polymerization of furfuryl alcohol and other co-reactants such as furfural, formaldehyde, glyoxal, resorcinol, phenoHc compounds and urea. In 1992, domestic furfuryl alcohol consumption was estimated at 47 million pounds (38). [Pg.80]

Uses. The principal use of adiponitrile is for hydrogenation to hexamethylene diamine leading to nylon-6,6. However, as a result of BASE s new adiponitrile-to-caprolactam process, a significant fraction of ADN produced may find its way into nylon-6 production. Adipoquanamine, which is prepared by the reaction of adiponitrile with dicyandiamide [461-58-5] (cyanoguanidine), may have uses in melamine—urea amino resins (qv) (see "Benzonitrile, Uses"). Its typical Hquid nitrile properties suggest its use as an extractant for aromatic hydrocarbons. [Pg.221]

Urea can be considered the amide of carbamic acid, NH2COOH, or the diamide of carbonic acid, CO(OH)2. At room temperature, urea is colorless, odorless, and tasteless. Properties are shown ia Tables 1—4. Dissolved ia water, it hydrolyzes very slowly to ammonium carbamate (1) and eventually decomposes to ammonia and carbon dioxide (qv). This reaction is the basis for the use of urea as fertilizer (qv). [Pg.297]

Table 2. Properties of Saturated Aqueous Solutions of Urea... Table 2. Properties of Saturated Aqueous Solutions of Urea...
Table 3. Properties of Saturated Solutions in Urea in Ammonia ... Table 3. Properties of Saturated Solutions in Urea in Ammonia ...
Partially polymerized resins of urea are used by the textile industry to impart permanent-press properties to fabrics (see also Textiles, finishing). [Pg.310]

Urea has the remarkable property of forming crystalline complexes or adducts with straight-chain organic compounds. These crystalline complexes consist of a hoUow channel, formed by the crystallized urea molecules, in which the hydrocarbon is completely occluded. Such compounds are known as clathrates. The type of hydrocarbon occluded, on the basis of its chain length, is determined by the temperature at which the clathrate is formed. This property of urea clathrates is widely used in the petroleum-refining industry for the production of jet aviation fuels (see Aviation and other gas-TURBINE fuels) and for dewaxing of lubricant oils (see also Petroleum, refinery processes). The clathrates are broken down by simply dissolving urea in water or in alcohol. [Pg.310]

Table 4. Properties of Urea Ammonium Nitrate Nonpressure Solutions... Table 4. Properties of Urea Ammonium Nitrate Nonpressure Solutions...
Finally, a modification has been carried out in which a polyacrylate emulsion is added to a normal tetrakis(hydroxymethyl)phosphonium sulfate [55566-30-8] (THPS), urea, and TMM fire-retardant treatment in an attempt to completely alleviate the strength loss during the finishing. Indeed, better retention of tensile properties is achieved with no loss in fire resistance (85). [Pg.489]

Foams prepared from phenol—formaldehyde and urea—formaldehyde resins are the only commercial foams that are significantly affected by water (22). Polyurethane foams exhibit a deterioration of properties when subjected to a combination of light, moisture, and heat aging polyester-based foam shows much less hydrolytic stabUity than polyether-based foam (50,199). [Pg.415]

Hydroxyhyda.ntoins. Some 5-hydroxyhydantoins such as (24) and (25) have shown antidiabetic activity (108). In some cases they are also diuretics and hypolipemics. These properties are probably related to the urea moiety found in these compounds. [Pg.256]

Reactions. The chemical properties of cyanoacetates ate quite similar to those of the malonates. The carbonyl activity of the ester function is increased by the cyano group s tendency to withdraw electrons. Therefore, amidation with ammonia [7664-41-7] to cyanoacetamide [107-91-5] (55) or with urea to cyanoacetylurea [448-98-2] (56) proceeds very easily. An interesting reaction of cyanoacetic acid is the Knoevenagel condensation with aldehydes followed by decarboxylation which leads to substituted acrylonitriles (57) such as (29), or with ketones followed by decarboxylation with a shift of the double bond to give P,y-unsaturated nitriles (58) such as (30) when cyclohexanone [108-94-1] is used. [Pg.470]


See other pages where Urea properties is mentioned: [Pg.324]    [Pg.324]    [Pg.86]    [Pg.395]    [Pg.709]    [Pg.326]    [Pg.297]    [Pg.392]    [Pg.220]    [Pg.221]    [Pg.241]    [Pg.480]    [Pg.449]    [Pg.450]    [Pg.176]    [Pg.474]    [Pg.201]    [Pg.38]    [Pg.518]    [Pg.5]    [Pg.10]    [Pg.10]    [Pg.97]    [Pg.361]    [Pg.321]    [Pg.322]    [Pg.328]    [Pg.329]    [Pg.311]    [Pg.199]    [Pg.229]    [Pg.102]   
See also in sourсe #XX -- [ Pg.37 , Pg.268 ]




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