Abstract: A twin-roll continuous casting method that controls occurrence of casting defects in a center part of plate thickness, for Al—Mg series aluminum alloy, a material featuring a wide temperature range for solid and liquid phases coexistence. In the method of manufacturing an Al—Mg series aluminum alloy cast plate, the plate contains Mg in a predetermined amount and has a relatively thick plate size, while casting is performed by a twin-roll type continuous casting method. Twin rolls have a roll diameter, and the rolls have a circumferential velocity. The circumferential length from points where molten metal starts contact with the rolls to kiss points is a solidification distance, and the roll gap at the kiss points is equal to the thickness of the cast plate. Specific relations among the above factors are maintained, and the continuous casting operation is carried out while satisfying such relations.

Abstract: To provide a method for producing an aluminum ingot whose oxides is reduced by preventing the surface of molten aluminum from being oxidized. The method according to the present invention includes a melting step (melting furnace 1) of melting an aluminum base metal into a molten aluminum or molten aluminum alloy; a holding step (holding furnace 2) of holding the resulting molten aluminum or molten aluminum alloy; a dehydrogenation step (dehydrogenation unit 3) of removing hydrogen gas from the molten aluminum or molten aluminum alloy; a filtration step (filter 4) of removing inclusions from the molten aluminum or molten aluminum alloy; and a casting step (casting device 5) of solidifying the molten aluminum or molten aluminum alloy into a predetermined shape, wherein at least one of the above steps is conducted in the atmosphere of a protective gas containing fluorinating gas, carbon dioxide gas, and nitrogen and/or argon gas.

Abstract: A twin-roll continuous casting method that controls occurrence of casting defects in a center part of plate thickness, for Al—Mg series aluminum alloy, a material featuring a wide temperature range for solid and liquid phases coexistence. In the method manufacturing an Al—Mg series aluminum alloy cast plate, the plate contains Mg in a predetermined amount and has a relatively thick plate size, while casting is performed by a twin-roll type continuous casting method. Twin rolls have a roll diameter, and the rolls have a circumferential velocity. The circumferential length from points where molten metal starts contact with the rolls to kiss points is a solidification distance, and the roll gap at the kiss points is equal to the thickness of the cast plate. Specific relations among the above factors are maintained, and the continuous casting operation is carried out while satisfying such relations.

Abstract: The present invention provides a method for manufacturing a clad material and the equipment for manufacturing the clad material, in which the productivity is excellent, the surface state and the flatness of the clad material can be readily controlled and the deterioration in adhesion rarely occurs in the clad material.

Abstract: The present invention provides an Al—Mg series alloy sheet of high-Mg with improved press formability and homogeneity which can be applied to automobile outer panels and inner panels. This is an Al—Mg series aluminum alloy sheet having 3.5 to 3 mm in thickness cast by twin-roll continuous casting and cold rolled, comprising over 8% but not more than 14% Mg, 1.0% or less Fe, and 3.5% or less Si with the remainder being Al and unavoidable impurities wherein the mean conductivity of the aluminum alloy sheet is in the range of at least 20 IACS % but less than 26 IACS %, the strength-ductility balance (tensile strength×total elongation) as a material property of the aluminum alloy sheet is 11000 (MPa %) or more, and the homogeneity and press formability of the sheet have been improved.

Abstract: In a method of measuring optical characteristics of a component in a liquid impregnated in a porous material with no affection by the porous material, a light beam having an absorbable wavelength which is absorbed by the component in the liquid and a light beam having a wavelength which is longer than the absorbable wavelength are projected to the porous material, and a quantity of light having the wavelength which is absorbed by the component in the liquid is compensated by a quantity of transmitted light having the wavelength longer than the absorbable wavelength.