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Iron circuit

If an induction motor is run at a frequency below its normal operating frequency, the air-gap flux will rise if the supply voltage magnitude is kept constant. The rise in flux will cause magnetic saturation in the iron circuit of the motor and this in turn will cause a very large increase in magnetising current in the branch shown in Figures 5.1 or 15.11. [Pg.393]

The electromagnetic lens iron circuit is external to the vacuum envelope and provides continuous focus according to Nl The coil windings are cast with high-thermal-conductivity resin to avoid the need for forced cooling. The special geometry permits access to the x-ray source to within 17 nun for large objects and 10 mm for small objects. [Pg.687]

FIGURE 14 Superconducting lens system (1) objective (shielding lens) (2) intermediate with iron circuit (3) specimen holder and (4) corrector device. [Pg.17]

Figure A3.10.1 (a) A schematic illustration of the corrosion process for an oxygen-rich water droplet on an iron surface, (b) The process can be viewed as a short-circuited electrochemical cell [4],... Figure A3.10.1 (a) A schematic illustration of the corrosion process for an oxygen-rich water droplet on an iron surface, (b) The process can be viewed as a short-circuited electrochemical cell [4],...
The term channel induction furnace is appHed to those in which the energy for the process is produced in a channel of molten metal that forms the secondary circuit of an iron core transformer. The primary circuit consists of a copper cod which also encircles the core. This arrangement is quite similar to that used in a utdity transformer. Metal is heated within the loop by the passage of electric current and circulates to the hearth above to overcome the thermal losses of the furnace and provide power to melt additional metal as it is added. Figure 9 illustrates the simplest configuration of a single-channel induction melting furnace. Multiple inductors are also used for appHcations where additional power is required or increased rehabdity is necessary for continuous operation (11). [Pg.130]

Uranium is subsequendy stripped reductively from the loaded solvent using a bleed stream of the raffinate acid to which ferrous iron has been added to reduce uranium to its nonextractable, quadravalent state. Raffinate is acid from which uranium has already been extracted. By controlling the organic-to-aqueous volume phase ratios in the extraction and stripping circuits, uranium is concentrated by a factor of approximately 70. [Pg.320]

Typically, ore bodies are relatively low in iron content. Iron minerals are finely divided in a gangue matrix. Wet grinding is usually required to Hberate the iron minerals, although some beach sands may have Hberated iron mineral values. Wet dmm separators are limited to the treatment of material <10 mm. The magnetic dmm separators appHed are usually related to the grinding circuit required to Hberate the iron mineral, and are typically designated by appHcation as cobbers, roughers, or finishers. [Pg.424]

Finishers. Magnetic finishing dmms are designed to produce the highest possible iron content in the concentrate. Typically, the feed size has been reduced to a nominal size of —74 fim (—200 mesh) or —44 fim (—325 mesh) in a ball mill circuit. The feed tank and feed arrangement of the finisher separator is usually of the semicountercurrent design. The objective is to disperse the feed particles in order to obtain maximum rejection of nonmagnetic particles. Both 762 and 914 mm dia dmms have been used in finisher appHcations. Dmm covers frequendy are not used in finisher constmction because of the material size. [Pg.425]

Sulfide Ores ores. In the Zairian ores, cobalt sulfide as carroUite is mixed with chalcopyrite and chalcocite [21112-20-9]. For processing, the ore is finely ground and the sulfides are separated by flotation (qv) using frothers. The resulting products are leached with dilute sulfuric acid to give a copper—cobalt concentrate that is then used as a charge in an electrolytic cell to remove the copper. Because the electrolyte becomes enriched with cobalt, solution from the copper circuit is added to maintain a desirable copper concentration level. After several more steps to remove copper, iron, and aluminum, the solution is treated with milk of lime to precipitate the cobalt as the hydroxide. [Pg.371]

The contact ends of printed circuit boards are copper. Alloys of nickel and iron are used as substrates in hermetic connectors in which glass (qv) is the dielectric material. Terminals are fabricated from brass or copper from nickel, for high temperature appHcations from aluminum, when aluminum conductors are used and from steel when high strength is required. Because steel has poor corrosion resistance, it is always plated using a protective metal, such as tin (see Tin and tin alloys). Other substrates can be unplated when high contact normal forces, usually more than 5 N, are available to mechanically dismpt insulating oxide films on the surfaces and thereby assure metaUic contact (see Corrosion and corrosion control). [Pg.30]

Thermocouples Temperature measurements using thermocouples are based on the discovery by Seebeck in 1821 that an electric current flows in a continuous circuit of two different metalhc wires if the two junctions are at different temperatures. The thermocouple may be represented diagrammaticaUy as shown in Fig. 8-60. A and B are the two metals, and T and To are the temperatures of the junctions. Let T and To be the reference junction (cold junction) and the measuring junc tion, respectively. If the thermoelectric current i flows in the direc tion indicated in Fig. 8-60, metal A is customarily referred to as thermoelectricaUy positive to metal B. Metal pairs used for thermocouples include platinum-rhodium (the most popular and accurate), cmromel-alumel, copper-constantan, and iron-constantan. The thermal emf is a measure of the difference in temperature between To and T. In control systems the reference junction is usually located at... [Pg.759]

Water Consumption Jigs require much water. In most installations, the Harz-type jig uses 0.006 to 0.01 m water/kg (1500 to 2500 gal/ton) material treated. Water requirements for treating minus 10-mm (%-in) iron ore in a Wemco-Bemer rougher-cleaner jig circuit are approximately 0.005 m water/kg (1200 gal/ton) of material processed. [Pg.1783]

Grates may be installed in all circuits of diy, pulverized material where contamination or accidents may occur from tramp or fine iron. [Pg.1794]

FIG. 20-56 Ball- and rod-mill circuit. Simplified flow sheet of the Cleveland-Chffs Iron Co. Republic mine iron-ore concentrator. To convert inches to centimeters, multiply hy 2.54 to convert feet to centimeters, multiply hy 30.5. (Johnson and Bjotne, Milling in the Americas, Gordon and Breach, New York, 1964.)... [Pg.1867]

See other pages where Iron circuit is mentioned: [Pg.851]    [Pg.419]    [Pg.434]    [Pg.63]    [Pg.82]    [Pg.120]    [Pg.131]    [Pg.851]    [Pg.419]    [Pg.434]    [Pg.63]    [Pg.82]    [Pg.120]    [Pg.131]    [Pg.86]    [Pg.2722]    [Pg.347]    [Pg.391]    [Pg.167]    [Pg.428]    [Pg.529]    [Pg.428]    [Pg.410]    [Pg.410]    [Pg.125]    [Pg.376]    [Pg.565]    [Pg.97]    [Pg.423]    [Pg.169]    [Pg.401]    [Pg.565]    [Pg.371]    [Pg.231]    [Pg.158]    [Pg.159]    [Pg.472]    [Pg.1782]    [Pg.1867]    [Pg.1868]    [Pg.1873]    [Pg.1893]   
See also in sourсe #XX -- [ Pg.62 ]



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