Abstract: A process for producing an aluminum alloy semi-molten billet for use as a transporation unit, including the steps of: producing an aluminum alloy having a composition consisting essentially of, in weight %, 0.5 or less Cu, 5.0 to 10.0 Si, 0.2 to 0.7 Mg, 0.35 or less Zn, 0.55 or less Fe, 0.5 or less Mn, 0.005 to 0.5 Ti, and the balance aluminum; introducing working strain into a melt of the aluminum alloy by means of molding flask-assisted cold forging at a distortion rate of 10 to 40%, at a working introduction velocity of 10 mm or less per second, and at a temperature of 200° C. or lower; and, thereafter heat-treating such a strain introduced melt at temperatures in a range of 576 to 585° C.
Abstract: A method of producing an aluminum metal from alumina, silica and iron oxide bearing materials by mixing the coal and bringing the mixtures to the temperature in the range of 600.degree. to 900.degree. C. in order to make the alumina bearing coked briquettes. Then, the coked briquettes are brought to the temperature in the range of 2,000.degree. to 2,100.degree. C. to produce aluminum, silicon and iron containing alloys. The alloys are scrubbed by molten lead spray directly after the alloys formation, and are converted to lead-aluminum alloy. An aluminum is separated from lead by liquation and purified by fractional distillation.
Abstract: Disclosed herein is a process for producing aluminum of high purity by the steps of electrolyzing an electrolytic bath composed preponderantly of aluminum chloride or aluminum bromide for thereby educing aluminum on the cathode, causing the cathodic product of electrolysis to precipitate to the bottom of the electrolytic cell, then melting the precipitate to produce molten aluminum, casting the molten aluminum into ingots and cooling the ingots.