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Homogenous solution

Mechanical stirring is not necessary in work with homogeneous solutions except when it is desired to add a substance portion-wise or dropwise so as to bring it as rapidly as possible into intimate contact with the main bulk of the solution. This applies particularly in those cases where a precipitate is formed and adsorption may occur, or where heat is generated... [Pg.62]

Into a 750 ml. round-bottomed flask furnished with a reflux condenser place a solution of 34 g. (18-5 ml.) of concentrated sulphuric acid in 100 ml, of water add 33 g. of di-n-butyl cyanamide and a few fragments of porous porcelain. Reflux gently for 6 hours. Cool the resulting homogeneous solution and pour in a cold solution of 52 g. of sodium hydroxide in 95 ml. of water down the side of the flask so that most of it settles at the bottom without mixing with the solution in the flask. Connect the flask with a condenser for downward distillation and shake it to mix the two layers the free amine separates. Heat the flask when the amine with some water distils continue the distillation until no amine separates from a test portion of the distillate. Estimate the weight of water in the distillate anp add about half this amount of potassium hydroxide in the form of sticks, so that it dissolves slowly. [Pg.419]

This volume of rectified spirit is required to produce a homogeneous solution. [Pg.798]

The iodoform test. Dissolve 0 -1 g. or 5 drops of the compound in 2 ml. of water if it is insoluble in water, add sufficient dioxan to produce a homogeneous solution. Add 2 ml. of 5 per cent, sodium hydroxide solution and then introduce a potassium iodide - iodine reagent dropwise with shaking until a definite dark colour of iodine persists. Allow to... [Pg.1068]

To ensure that reaction occurs m homogeneous solution solvents are chosen that dis solve both the alkyl halide and the ionic salt The alkyl halide substrates are soluble m organic solvents but the salts often are not Inorganic salts are soluble m water but alkyl... [Pg.327]

Gordon, L Salutsky, M. L. Willard, H. H. Precipitation from Homogeneous Solution, Wiley New York, 1959. [Pg.272]

Dimethylformamide [68-12-2] (DME) and dimethyl sulfoxide [67-68-5] (DMSO) are the most commonly used commercial organic solvents, although polymerizations ia y-butyrolactoae, ethyleae carboaate, and dimethyl acetamide [127-19-5] (DMAC) are reported ia the hterature. Examples of suitable inorganic salts are aqueous solutioas of ziac chloride and aqueous sodium thiocyanate solutions. The homogeneous solution polymerization of acrylonitrile foUows the conventional kinetic scheme developed for vinyl monomers (12) (see Polymers). [Pg.277]

Homogeneous GopolymeriZation. Nearly all acryhc fibers are made from acrylonitrile copolymers containing one or more additional monomers that modify the properties of the fiber. Thus copolymerization kinetics is a key technical area in the acryhc fiber industry. When carried out in a homogeneous solution, the copolymerization of acrylonitrile foUows the normal kinetic rate laws of copolymerization. Comprehensive treatments of this general subject have been pubhshed (35—39). The more specific subject of acrylonitrile copolymerization has been reviewed (40). The general subject of the reactivity of polymer radicals has been treated in depth (41). [Pg.278]

Development efforts at Celanese Research Co. estabHshed soHd-state polymerization as the most practical process for engineering scale-up. Homogeneous solution polymerization of PBI in polyphosphoric acid was eliminated because of the need to work with low soHd compositions (in the range of 3—5%) during the precipitation, neutralization, and washing steps required for isolation of the product. [Pg.67]

Glassification of Phase Boundaries for Binary Systems. Six classes of binary diagrams have been identified. These are shown schematically in Figure 6. Classifications are typically based on pressure—temperature (P T) projections of mixture critical curves and three-phase equiHbria lines (1,5,22,23). Experimental data are usually obtained by a simple synthetic method in which the pressure and temperature of a homogeneous solution of known concentration are manipulated to precipitate a visually observed phase. [Pg.222]

Several derivatives of cellulose, including cellulose acetate, can be prepared in solution in dimethylacetamide—lithium chloride (65). Reportedly, this combination does not react with the hydroxy groups, thus leaving them free for esterification or etherification reactions. In another homogeneous-solution method, cellulose is treated with dinitrogen tetroxide in DMF to form the soluble cellulose nitrite ester this is then ester-interchanged with acetic anhydride (66). With pyridine as the catalyst, this method yields cellulose acetate with DS < 2.0. [Pg.253]

HEC is generally compatible with other ceUulosic water-soluble polymers to give clear, homogeneous solutions. When mixed with an anionic polymer such as CMC, however, interactions between the two polymers may result in synergistic behavior, ie, viscosities higher than predicted and calculated. HEC has excellent compatibiUty with natural gums. [Pg.274]

After preparing a homogeneous solution of the precursors, powder precipitation is accompHshed through the addition of at least one complexing ion. For PLZT, frequently OH in the form of ammonium hydroxide is added as the complexing anion, which results in the formation of an amorphous, insoluble PLZT-hydroxide. Other complexing species that are commonly used are carbonate and oxalate anions. CO2 gas is used to form carbonates. Irrespective of the complexing anion, the precipitated powders are eventually converted to the desired crystalline oxide phase by low temperature heat treatment. [Pg.346]

These are the components of the formulation that do all or most of the actual foam control work. Traditionally, defoamers were single component Hquids or homogeneous solutions of vegetable or mineral oils, but more recendy a number of active hydrophobic soHds have been utilized so effectively that in a dispersion of hydrophobic soHds in a traditional oil such as castor oil [8001-79-4] the oil could be classed as a carrier oil rather than an active ingredient. [Pg.463]

The reactivity of ethylene is high, whereas that of propylene is low and the various dienes have different polymerisation reactivities. The viscous mbber solution contains some unpolymerised ethylene, propylene, unpolymerised diene, and about 10% EPDM, all in homogeneous solution. This solution is passed continuously into a flash tank, where reduced pressure causes most of the unpolymerised monomers to escape as gases, which are collected and recycled. [Pg.504]

The reactions of oxiranes with thiocyanate ion or with thiourea are usually done in homogeneous solution in water, alcohols or alcohol-acetic acid. The use of silica gel as a support for potassium thiocyanate in toluene solvent is advantageous for the simple work-up (filtration and evaporation of solvent) (80JOC4254). A crown ether has been used to catalyze reactions of potassium thiocyanate. [Pg.179]


See other pages where Homogenous solution is mentioned: [Pg.365]    [Pg.394]    [Pg.438]    [Pg.17]    [Pg.321]    [Pg.479]    [Pg.488]    [Pg.731]    [Pg.785]    [Pg.145]    [Pg.76]    [Pg.78]    [Pg.1141]    [Pg.193]    [Pg.263]    [Pg.140]    [Pg.279]    [Pg.280]    [Pg.378]    [Pg.343]    [Pg.400]    [Pg.402]    [Pg.332]    [Pg.407]    [Pg.228]    [Pg.251]    [Pg.384]    [Pg.237]    [Pg.261]    [Pg.54]    [Pg.455]    [Pg.455]    [Pg.455]    [Pg.460]    [Pg.460]   
See also in sourсe #XX -- [ Pg.4 , Pg.193 ]

See also in sourсe #XX -- [ Pg.4 , Pg.193 ]




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Aqueous solutions, homogeneous reaction

Cellulose homogeneous solution reactions

Chitin homogeneous solution reactions

Contrast shown by a homogeneous mixture of chains in solution

Cross-section (per unit volume) of homogeneous polymers in solution

Dilute solutions homogeneous equilibria

Disproportionation mechanism homogeneous solution reactions

Electron Transfer in Homogeneous Solutions

Field Effects on Radical Pairs in Homogeneous Solution

Free energy of a homogeneous solution

Fundamental Solutions of the Homogeneous Equation

Homogeneous Catalysis in Liquid Solution

Homogeneous Catalysis in Solution with Tritiated Water

Homogeneous Solution Polymerizations

Homogeneous Solutions of Higher Order Constant Coefficient Equations

Homogeneous casting solution

Homogeneous equilibrium in solutions

Homogeneous fluid solution

Homogeneous linear equation, solution

Homogeneous liquid phase simple reaction solution

Homogeneous polydisperse solute mean form function

Homogeneous polymer solution

Homogeneous polymer solution, addition

Homogeneous reactions, scanning solutions

Homogeneous separation solution crystallization

Homogeneous solution phase

Homogeneous solution phase reactions

Homogeneous solution synthesis

Homogeneous solution, nucleation

Homogeneous solution, photolysis

Homogeneous solution, rapid

Homogeneous solution, rapid hydrolysis

Homogeneous solutions

Homogeneous solutions, solvation

Homogeneous versus Heterogeneous Solution Equilibria

Homogenous Solution Catalysts at Semiconductor Electrodes

Homogenous catalysis in solution

Homogenous solution calorimetry

Homogenous solution methods, functional

Homogenous solution proteins

Homogenous solution transfer

Hydrolysis in homogeneous solution

In homogeneous aqueous solution

In homogeneous solution

Kinetics in homogeneous solution

Method of Solution for Homogeneous Equations

Missile Fuel Homogeneous Fluid Solution

Polysaccharide homogeneous solution reactions

Precipitation from homogeneous solution

Radical pair in homogeneous solution

Reactions in homogeneous aqueous solution

Reactivity ratios, homogeneous solution copolymerization

Roundhill, D. M., Organotransition-Metal Chemistry and Homogeneous Catalysis in Aqueous Solution

Roundhill, D. M., Organotransition-Metal Chemistry and Homogeneous atalysis in Aqueous Solution

Scattering by a homogeneous solute

Self-Diffusion of Component i in a Chemically Homogeneous Binary Solution

Semiconductor homogenous solution catalysts

Solid homogenous diffusion Solute solution, concentration

Solid solution homogeneous

Solution A homogeneous mixture acidic

Solution A homogeneous mixture basic

Solution A homogeneous mixture composition

Solution A homogeneous mixture dilution

Solution A homogeneous mixture neutral

Solution A homogeneous mixture normality

Solution A homogeneous mixture saturated

Solution A homogeneous mixture stoichiometry

Solution A homogeneous mixture types

Solutions homogeneity

Solutions homogeneity

Solutions homogeneous mixtures

Solutions homogenous mixtures

Stability of Homogeneous Solutions

The Life Cycle of Radical Pairs in Homogeneous Solution

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