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Aluminium addition

Even higher tin contents (up to 2wt.%) have been reported [89] to provide reduction in the rate of corrosion and growth of positive lead-calcium grids in VRLA batteries employed in standby service at elevated temperatures. The beneficial effects of high tin on positive-grid corrosion in VRLA batteries have recently been confirmed [90]. It is proposed that the improved corrosion resistance is due to the large number of fine precipitate particles and better accommodation of the stresses of corrosion by the high mechanical properties of the alloys. [Pg.25]

One study has suggested that researchers looking for a connection between aluminium and Alzheimer s disease may have ignored the most important source of aluminium for the average person—foodstuffs that contain aluminium additives (36). The results implied that aluminium, added to such foods as anticaking agents, emulsifiers, thickeners, leaveners, and stabilizers, may have long-term adverse effects on health. However, the small sample size hampers any definitive conclusions, the odds ratios were very unstable, and the study had limited statistical power to rule out random errors. [Pg.99]

The sample consists of approximately 50 g of industrial sandy soil in brown glass bottles with a polythene insert lined with aluminium. Additional information on the presence of additional organic chlorinated compounds other than those tabulated is given in the report. [Pg.232]

For the aluminium addition compounds, where there will be little zl-bonding, the order of decreasing donor strength of the Group VI ligands is 0>S>Se>Te. This is the order which is expected if only o -bonds are involved. For the gallium trimethyl compounds the order is changed to /S e Te. This reversal... [Pg.121]

A considerable amount of mechanical properties design data on Alloy 800 has already been produced for SPX1, but certain additional work, especially long creep tests were necessary for confirmation. These long term creep/stress rupture tests include the effects of titanium and aluminium additions and welding evaluations. Work has been carried out mainly on pre-pressurised tubes tested at temperature 525 and 550 C. [Pg.99]

Y Murata, BR Micoioli. Inhibition of grain growth in niobium diboride. Ceram Bull 50 182, 1971. A Kamiya, K Nakano. Effect of aluminium addition on TiN hot-press sintering. J Mater Sci Lett 14 1789, 1995. [Pg.50]

Abe] Abenojar, J., Velasco, R, Martinez, M.A., Influence of Carbon and Aluminium Additions on the Fe-10% B (wt.) System , J. Mat. Proc. Tech., 143-144, 28-23 (2003) (Crys. Stmcture, Experimental, Morphology, Phase Relations, 10)... [Pg.389]

Only thallium of the Group III elements is affected by air at room temperature and thalliumflll) oxide is slowly formed. All the elements, however, burn in air when strongly heated and, with the exception of gallium, form the oxide M2O3 gallium forms a mixed oxide of composition GaO. In addition to oxide formation, boron and aluminium react at high temperature with the nitrogen in the air to form nitrides (BN and AIN). [Pg.144]

A white gelatinous precipitate of aluminium hydroxide is obtained when an alkali is added to an aqueous solution of an aluminium salt. Addition of an excess of caustic alkali causes the precipitate to redissolve, the whole process being reversed by the addition of a strong acid the actual substance present at any time depending on... [Pg.150]

Therefore, when an anhydrous aluminium salt is dissolved in water initially, the octahedral ion [Al(H20)j,] " is formed by hydration of the A1 ion. However, since some hydrolysis occurs, the solution will contain and be acidic. Addition of any molecule or ion... [Pg.151]

On standing, gelatinous aluminium hydroxide, which may initially have even more water occluded than indicated above, is converted into a form insoluble in both acids and alkalis, which is probably a hydrated form of the oxide AI2O3. Both forms, however, have strong adsorptive power and will adsorb dyes, a property long used by the textile trade to dye rayon. The cloth is first impregnated with an aluminium salt (for example sulphate or acetate) when addition of a little alkali, such as sodium carbonate, causes aluminium hydroxide to deposit in the pores of the material. The presence of this aluminium hydroxide in the cloth helps the dye to bite by ad sorbing it—hence the name mordant (Latin mordere = to bite) dye process. [Pg.151]

Addition of ammonium hydroxide to a solution of an aluminium salt gives a white gelatinous precipitate of aluminium hydroxide, Al(OH)3, insoluble in excess. Sodium hydroxide gives the same precipitate, but in this case, it does dissolve in excess. [Pg.158]

Addition of ammonium hydroxide to an aluminium salt in solution in presence of alizarin, gives a pink precipitate. [Pg.158]

Aqueous ammonia can also behave as a weak base giving hydroxide ions in solution. However, addition of aqueous ammonia to a solution of a cation which normally forms an insoluble hydroxide may not always precipitate the latter, because (a) the ammonia may form a complex ammine with the cation and (b) because the concentration of hydroxide ions available in aqueous ammonia may be insufficient to exceed the solubility product of the cation hydroxide. Effects (a) and (b) may operate simultaneously. The hydroxyl ion concentration of aqueous ammonia can be further reduced by the addition of ammonium chloride hence this mixture can be used to precipitate the hydroxides of, for example, aluminium and chrom-ium(III) but not nickel(II) or cobalt(II). [Pg.218]

In the following experiment, salicylic acid is reduced to o-hydroxybenzyl alcohol (or saligenin), which being crystalline is readily isolated the excess of hydride is destroyed by the addition of undried ether, and the aluminium hydroxide then brought into solution by the addition of sulphuric acid. [Pg.155]

The apparatus required is similar to that described for Diphenylmelhane (Section IV,4). Place a mixture of 200 g. (230 ml.) of dry benzene and 40 g. (26 ml.) of dry chloroform (1) in the flask, and add 35 g. of anhydrous aluminium chloride in portions of about 6 g. at intervals of 5 minutes with constant shaking. The reaction sets in upon the addition of the aluminium chloride and the liquid boils with the evolution of hydrogen chloride. Complete the reaction by refluxing for 30 minutes on a water bath. When cold, pour the contents of the flask very cautiously on to 250 g. of crushed ice and 10 ml. of concentrated hydrochloric acid. Separate the upper benzene layer, dry it with anhydrous calcium chloride or magnesium sulphate, and remove the benzene in a 100 ml. Claisen flask (see Fig. II, 13, 4) at atmospheric pressure. Distil the remaining oil under reduced pressure use the apparatus shown in Fig. 11,19, 1, and collect the fraction b.p. 190-215°/10 mm. separately. This is crude triphenylmethane and solidifies on cooling. Recrystallise it from about four times its weight of ethyl alcohol (2) the triphenylmethane separates in needles and melts at 92°. The yield is 30 g. [Pg.515]

The stock solution of quinoline-sulphur poison is prepared by refluxing I g. of sulphur with 6 g. of quinoline for 5 hours and diluting the resulting brown liquid to 70 nJ. with xylene which has been purified by distilling over anhydrous aluminium chloride. The addition of the quinoline - sulphur poison ensures that the reduction does not proceed beyond the aldehyde stage it merely slows up the reaction and has no harmful effects. [Pg.700]

To the cold acid chloride add 175 ml. of pure carbon disulphide, cool in ice, add 30 g, of powdered anhydrous aluminium chloride in one lot, and immediately attach a reflux condenser. When the evolution of hydrogen chloride ceases (about 5 minutes), slowly warm the mixture to the boiling point on a water bath. Reflux for 10 minutes with frequent shaking the reaction is then complete. Cool the reaction mixture to 0°, and decompose the aluminium complex by the cautious addition, with shaking, of 100 g. of crushed ice. Then add 25 ml. of concentrated hydrochloric acid, transfer to a 2 htre round-bottomed flask and steam distil, preferably in the apparatus, depicted in Fig. II, 41, 3 since the a-tetralone is only moderately volatile in steam. The carbon disulphide passes over first, then there is a definite break in the distillation, after whieh the a-tetralone distils completely in about 2 htres of distillate. [Pg.738]

See other pages where Aluminium addition is mentioned: [Pg.246]    [Pg.160]    [Pg.259]    [Pg.188]    [Pg.22]    [Pg.110]    [Pg.24]    [Pg.24]    [Pg.183]    [Pg.364]    [Pg.246]    [Pg.160]    [Pg.259]    [Pg.188]    [Pg.22]    [Pg.110]    [Pg.24]    [Pg.24]    [Pg.183]    [Pg.364]    [Pg.21]    [Pg.946]    [Pg.2785]    [Pg.62]    [Pg.166]    [Pg.189]    [Pg.371]    [Pg.117]    [Pg.156]    [Pg.257]    [Pg.290]    [Pg.222]    [Pg.513]    [Pg.513]    [Pg.534]    [Pg.703]    [Pg.731]    [Pg.732]    [Pg.733]    [Pg.733]    [Pg.739]   


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Addition of Aluminium

Addition trimethyl aluminium

Additives aluminium hydroxide

Additives aluminium oxide

Aluminium, addition with

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