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Solubility solids

Thailium(l) fluoride, TIF. Colourless solid soluble in water (TIOH in HF). Forms TlHFj. [Pg.392]

When an element has more than one oxidation state the lower halides tend to be ionic whilst the higher ones are covalent—the anhydrous chlorides of lead are a good example, for whilst leadfll) chloride, PbCl2, is a white non-volatile solid, soluble in water without hydrolysis, leadflV) chloride, PbC, is a liquid at room temperature (p. 200) and is immediately hydrolysed. This change of bonding with oxidation state follows from the rules given on p.49... [Pg.344]

Physical Properties. Glycine is a colourless crystalline solid soluble in water. Owing to the almost equal opposing effects of the amino and the carboxylic groups. its aqueous solution is almost neutral (actually, slightly acidic to phenolphthalein) and glycine is therefore known as a neutral ampholyte. f It exhibits both acidic and basic properties. [Pg.380]

Physical Properties. Colourless crystalline solid, soluble in boiling water, very sparingly soluble in cold water crystallises 2H2O. The strongly acidic — SO3H group suppresses the normal basic properties of the — NHj group the acid therefore dissolves readily in alkalis, but not in dilute mineral acids. [Pg.384]

Capreomycin disulfate USP is a white solid, soluble ia water and relatively iasoluble ia most organic solvents. It must contain at least 90% capreomycias I. A representative lot contained 25% capreomycin IA, 67% IB, 3% IIA, and 6% IIB (119). The stmctures of capreomycin IA and IB have been determiaed and the compounds synthesized (120). The stmctures of capreomycin IIA and IIB are probably those shown ia Table 4. [Pg.151]

A further problem is possible if the reinforcements are very small. Coarsening of the particles or whiskers may occur driven by Ostwald ripening, in which large particles grow through diffusional transport at the expense of smaller ones. This can be minimized by choosing matrices in which the reinforcement elements have very low solid solubilities and diffusion coefficients. Platelets, however, have been shown to be more resistant to coarsening than particles or whiskers. [Pg.58]

As you can see from the tables in Chapter 1, few metals are used in their pure state -they nearly always have other elements added to them which turn them into alloys and give them better mechanical properties. The alloying elements will always dissolve in the basic metal to form solid solutions, although the solubility can vary between <0.01% and 100% depending on the combinations of elements we choose. As examples, the iron in a carbon steel can only dissolve 0.007% carbon at room temperature the copper in brass can dissolve more than 30% zinc and the copper-nickel system - the basis of the monels and the cupronickels - has complete solid solubility. [Pg.16]

When the phase diagram for an alloy has the shape shown in Fig. 10.3 (a solid solubility that decreases markedly as the temperature falls), then the potential for age (or precipitation) hardening exists. The classic example is the Duralumins, or 2000 series aluminium alloys, which contain about 4% copper. [Pg.103]

Describe, using the copper-nickel ("monel") system as an example, the process of zone-refining. (Figure A1.51 shows a system with complete solid solubility.) Flow many phases are present in an alloy of 60 wt% Ni and 40 wt% Cu at ... [Pg.364]

An intermediate compound A2B3 melts at 1230°C. It has a limited solid solubility for A, forming solid solution and no solid solubility for B. [Pg.366]

The sequence just outlined provides a salutary lesson in the nature of explanation in materials science. At first the process was a pure mystery. Then the relationship to the shape of the solid-solubility curve was uncovered that was a partial explanation. Next it was found that the microstructural process that leads to age-hardening involves a succession of intermediate phases, none of them in equilibrium (a very common situation in materials science as we now know). An understanding of how these intermediate phases interact with dislocations was a further stage in explanation. Then came an nnderstanding of the shape of the GP zones (planar in some alloys, globniar in others). Next, the kinetics of the hardening needed to be... [Pg.90]

Alkyl sulphoxides occur widely in small concentrations in plant and animal tissues. No gaseous sulphoxides are known and they tend to be colourless, odourless, relatively unstable solids soluble in water, ethyl alcohol and ether. They are freely basic, and with acids form salts of the type (R2S0H) X. Because sulphoxides are highly polar their boiling points are high. Their main use is as solvents for polymerization, spinning, extractions, base-catalysed chemical reactions and for pesticides. [Pg.38]

Di-(carboxymethylthio).p-carbamidophenylarsine thus prepared was obtained as a white amorphous solid, soluble in dilute alkali. It contained about 19.85% of arsenic as compared with the calculated amount of 19.09%. [Pg.1466]

The base melts at about 161°C, It is a white crystalline solid, soluble in hot ethyl alcohol... [Pg.1590]

Table I. shows the calculated results of dilate limit. It is obvious that the nea.rest-neighlror interactions are of major importance. The fundamental characteristic features of ordering systems such as PdV, NiV, and NiAl are explained by the large positive value of the NN IE s positive means repulsion between the two impurity atoms. The continuous solid solubilities of CuNi a.nd AgPd correspond to the small values of the IE s. ... Table I. shows the calculated results of dilate limit. It is obvious that the nea.rest-neighlror interactions are of major importance. The fundamental characteristic features of ordering systems such as PdV, NiV, and NiAl are explained by the large positive value of the NN IE s positive means repulsion between the two impurity atoms. The continuous solid solubilities of CuNi a.nd AgPd correspond to the small values of the IE s. ...
Hexamethylenediamine (1,6-hexanediamine) is a colorless solid, soluble in both water and alcohol. It is the second monomer used to produce nylon 6/6 with adipic acid or its esters. [Pg.257]

In some metal components it is possible to form oxides and carbides, and in others, especially those with a relatively wide solid solubility range, to partition the impurity between the solid and the liquid metal to provide an equilibrium distribution of impurities around the circuit. Typical examples of how thermodynamic affinities affect corrosion processes are seen in the way oxygen affects the corrosion behaviour of stainless steels in sodium and lithium environments. In sodium systems oxygen has a pronounced effect on corrosion behaviour whereas in liquid lithium it appears to have less of an effect compared with other impurities such as C and Nj. According to Casteels Li can also penetrate the surface of steels, react with interstitials to form low density compounds which then deform the surface by bulging. For further details see non-metal transfer. [Pg.429]

Of the elements normally present in tin-rich alloys, lead forms a simple eutectic system with a eutectic composition at 63% Sn, and copper and antimony have a small solid solubility and form the intermetallic compounds Cu Sn, and SbSn respectively. ... [Pg.801]

Just as the saturated solubility of sugar in water is limited, so the solid solubility of element B in metal A may also be limited, or may even be so low as to be negligible, as for example with lead in iron or carbon in aluminium. There is extensive interstitial solid solubility only when the solvent metal is a transition element and when the diameter of the solute atoms is < 0 6 of the diameter of the solvent atom. The Hume-Rothery rules state that there is extensive substitutional solid solubility of B in >1 only if ... [Pg.1272]

However, just as two liquids may be completely miscible and form a complete range of solutions from one pure liquid to the other, so certain metals, for example copper and nickel, exhibit complete solid solubility over the whole range of compositions from pure copper to pure nickel. Clearly for two metals to be soluble in each other over the whole compositional range, they must have the same crystal structure, i.e. they must be isomorphous. [Pg.1273]

In determinations of sulphurous acid and sulphites, excess of standard 0.05M iodine is diluted with several volumes of water, acidified with hydrochloric or sulphuric acid, and a known volume of the sulphite or sulphurous acid solution is added slowly and with constant stirring from a burette, with the jet close to the surface of the liquid. The excess of iodine is then titrated with standard 0.1M sodium thiosulphate. Solid soluble sulphites are finely powdered and added directly to the iodine solution. Insoluble sulphites (e.g. calcium sulphite) react very slowly, and must be in a very fine state of division. [Pg.398]

Properties of panal (Nakamura etal., 1988a). Purified panal is a colorless, amorphous solid, soluble in alcohols, water, ethyl acetate, and chloroform. The absorption spectrum (Fig. 9.3) shows a single peak (A.max 217nm, e 15,300). Optical rotation [a]D —17° (c 0.9, methanol). Mass spectrometry and NMR analysis showed that panal is a sesquiterpene aldehyde, C15H18O5 (Mr 278.30), with the structure shown below. [Pg.278]

Solids Soluble Insoluble Abrasive Sticky Q Crystalline Fluffy... [Pg.310]

E8.12 The melting point of 1,4-dichlorobenzene is 326.4 K and that of naphthalene is 353.4 K. The eutectic point occurs at a temperature of 303.4 K and a mole fraction of naphthalene in the liquid phase of 0.394. Assume ideal liquid solutions, no solid solubility, and ArusCp.m = 0 and calculate AfusHm for 1,4-dichlorobenzene. [Pg.430]


See other pages where Solubility solids is mentioned: [Pg.27]    [Pg.31]    [Pg.32]    [Pg.385]    [Pg.7]    [Pg.392]    [Pg.426]    [Pg.468]    [Pg.366]    [Pg.394]    [Pg.412]    [Pg.731]    [Pg.1212]    [Pg.1220]    [Pg.42]    [Pg.140]    [Pg.1272]    [Pg.1273]    [Pg.1274]    [Pg.1275]    [Pg.1279]    [Pg.1288]    [Pg.120]    [Pg.1000]    [Pg.385]    [Pg.386]   
See also in sourсe #XX -- [ Pg.20 , Pg.110 , Pg.117 ]

See also in sourсe #XX -- [ Pg.21 ]

See also in sourсe #XX -- [ Pg.120 ]

See also in sourсe #XX -- [ Pg.433 , Pg.435 , Pg.542 ]

See also in sourсe #XX -- [ Pg.20 , Pg.110 , Pg.117 ]




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Soluble solids

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