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Silicon precipitate

Modifications to Precipitates. Silicon is sometimes added to Al—Cu—Mg alloys to help nucleate S precipitates without the need for cold work prior to the elevated temperature aging treatments. Additions of elements such as tin [7440-31-5] Sn, cadmium [7440-43-9] Cd, and indium [7440-74-6] In, to Al—Cu alloys serve a similar purpose for 9 precipitates. Copper is often added to Al—Mg—Si alloys in the range of about 0.25% to 1.0% Cu to modify the metastable precursor to Mg2Si. The copper additions provide a substantial strength increase. When the copper addition is high, the quaternary Al CuMg Si Q-phase must be considered and dissolved during solution heat treatment. [Pg.118]

Repeat the dilution and boiling once more, cool, dilute considerably, and if precipitated silicon dioxide forms, filter through... [Pg.866]

Jones R 1996 Early Stages of Oxygen Precipitation in Silicon (Dordrecht Kluwer)... [Pg.2897]

Silicon [7440-21-3] Si, from the Latin silex, silicis for flint, is the fourteenth element of the Periodic Table, has atomic wt 28.083, and a room temperature density of 2.3 gm /cm. SiUcon is britde, has a gray, metallic luster, and melts at 1412°C. In 1787 Lavoisier suggested that siUca (qv), of which flint is one form, was the oxide of an unknown element. Gay-Lussac and Thenard apparently produced elemental siUcon in 1811 by reducing siUcon tetrafluoride with potassium but did not recognize it as an element. In 1817 BerzeHus reported evidence of siUcon occurring as a precipitate in cast iron. Elemental siUcon does not occur in nature. As a constituent of various minerals, eg, siUca and siUcates such as the feldspars and kaolins, however, siUcon comprises about 28% of the earth s cmst. There are three stable isotopes that occur naturally and several that can be prepared artificially and are radioactive (Table 1) (1). [Pg.524]

The red cake can be further purified by dissolving it in an aqueous solution of Na2C02- The iron, aluminum, and silicon impurities precipitate from the solution upon pH adjustment. Ammonium metavanadate then precipitates upon the addition of NH Cl and is calcined to give vanadium pentoxide of greater than 99.8% purity. [Pg.382]

Copper—chromium and copper—nickel—silicon—chromium alloys are also precipitation hardenable. The precipitates are nickel sdicides, chromium silicides, and elemental chromium. If conductivity is critical, the chromium—silicon ratio should be held at 10 1 so that appreciable amounts of either element are not left in soHd solution in the copper after aging. Lithium can be used as a deoxidizer in copper alloys when conductivity is important. For a discussion of the principle of age- or precipitation-hardening copper alloys, see Copperalloys,wrought copperalloys. [Pg.238]

Figure 6.4. Piston alloy, showing strengthening preeipitates. imaged by high-resolution electron micro.seopy. The matrix (top and bottom) is aluminium, while the central region is silicon. The outer precipitates were idcntilicd as AlsCu2MgnSi5. (First published by Spence 1999. reproduced here by courtesy of the originator, V. Radmilovic). Figure 6.4. Piston alloy, showing strengthening preeipitates. imaged by high-resolution electron micro.seopy. The matrix (top and bottom) is aluminium, while the central region is silicon. The outer precipitates were idcntilicd as AlsCu2MgnSi5. (First published by Spence 1999. reproduced here by courtesy of the originator, V. Radmilovic).
Silane, see Silicon tetrahydride Silica, Amorphous Total inhalable dust Respirable dust Precipitated... [Pg.170]

The starting material and shock-activated powder were mixed with 5-wt% MgO and heated for various periods. At the end of each period the phase content of the samples was determined with x-ray diffraction. In this environment it is thought that the phase is formed by a dissolution-precipitation process as shown in Fig. 7.8. As indicated in Fig. 7.9, the shock-activated silicon nitride displays substantially enhanced dissolution rates that are strongly dependent on shock pressure between 22 and 27 GPa. [Pg.173]

H. Takeno, T. Otogawa, Y. Kitagawara. Practical computer simulation technique to predict oxygen precipitation behavior in Czochralski silicon wafers for various thermal processes. J Electrochem Soc 144 4340, 1997. [Pg.927]

Employing silicon alkoxides, the hydrolysis has to be catalyzed by the addition of an acid or a base, and an excess of water is often used. Employing zirconium alkoxides, the hydrolysis reaction proceeds much faster than the condensation so that the product is obtained as a precipitate rather than a gel. [Pg.541]

Metallic magnesium is produced by either chemical or electrolytic reduction of its compounds. In chemical reduction, first magnesium oxide is obtained from the decomposition of dolomite. Then ferrosilicon, an alloy of iron and silicon, is used to reduce the MgO at about 1200°C. At this temperature, the magnesium produced is immediately vaporized and carried away. The electrolytic method uses seawater as its principal raw material magnesium hydroxide is precipitated by adding slaked lime (Ca(OH)2, see Section 14.10), the precipitate is filtered off and treated with hydrochloric acid to produce magnesium chloride, and the dried molten salt is electrolyzed. [Pg.713]

Aluminum is the most abundant metallic element in the Earth s crust and, after oxygen and silicon, the third most abundant element (see Fig. 14.1). However, the aluminum content in most minerals is low, and the commercial source of aluminum, bauxite, is a hydrated, impure oxide, Al203-xH20, where x can range from 1 to 3. Bauxite ore, which is red from the iron oxides that it contains (Fig. 14.23), is processed to obtain alumina, A1203, in the Bayer process. In this process, the ore is first treated with aqueous sodium hydroxide, which dissolves the amphoteric alumina as the aluminate ion, Al(OH)4 (aq). Carbon dioxide is then bubbled through the solution to remove OH ions as HCO and to convert some of the aluminate ions into aluminum hydroxide, which precipitates. The aluminum hydroxide is removed and dehydrated to the oxide by heating to 1200°C. [Pg.718]

In the A sector (lower right), the deposition is controlled by surface-reaction kinetics as the rate-limiting step. In the B sector (upper left), the deposition is controlled by the mass-transport process and the growth rate is related linearly to the partial pressure of the silicon reactant in the carrier gas. Transition from one rate-control regime to the other is not sharp, but involves a transition zone where both are significant. The presence of a maximum in the curves in Area B would indicate the onset of gas-phase precipitation, where the substrate has become starved and the deposition rate decreased. [Pg.53]

A recent competitor to CVD in the planarization of silicon dioxide is the sol-gel process, where tetraethylorthosilicate is used to form spin-on-glass (SOG) films (see Appendix). This technique produces films with good dielectric properties and resistance to cracking. Gas-phase precipitation, which sometimes is a problem with CVD, is eliminated. [Pg.373]

See other pages where Silicon precipitate is mentioned: [Pg.258]    [Pg.1594]    [Pg.2132]    [Pg.114]    [Pg.1594]    [Pg.244]    [Pg.258]    [Pg.1594]    [Pg.2132]    [Pg.114]    [Pg.1594]    [Pg.244]    [Pg.2901]    [Pg.187]    [Pg.258]    [Pg.347]    [Pg.400]    [Pg.346]    [Pg.114]    [Pg.541]    [Pg.1616]    [Pg.223]    [Pg.208]    [Pg.128]    [Pg.25]    [Pg.837]    [Pg.441]    [Pg.692]    [Pg.1003]    [Pg.586]    [Pg.784]    [Pg.798]    [Pg.1214]    [Pg.96]    [Pg.462]    [Pg.487]    [Pg.159]    [Pg.179]    [Pg.201]    [Pg.96]    [Pg.352]    [Pg.47]   
See also in sourсe #XX -- [ Pg.209 ]



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