TH33468A - Process for producing aluminum alloy sheets - Google Patents

Abstract

DC60 (02/10/49) Anneal, continuous cast plate and rolled by roller to aluminum alloy with Mg in the amount of 3 to 6% by weight, followed by stress corrected, thermo-actuated. and Set aside at a specified temperature between 240 ° C and 340 ° C for an hour or more, and perform cooling slowly, so that a resistant aluminum alloy plate is provided. Increased by stress corrosion cracking and the ability to fix their shape Get updates Continue to cool slowly. At the cooling rate selected from the cooling area Which corresponds to the pre-defined temperature region S, which is specified in a Surrounded by a slanting line in the drawing that is appended Anneal, continuous cast plate and rolled with a roller to an aluminum alloy containing Mg in an amount of 3 to 6% by weight, followed by stress correction, heat action and Set aside at a specified temperature between 240 ํ and 340 ํ for an hour or more, and perform a slow cooling operation, so that a resistant aluminum alloy plate is provided. Increased by stress corrosion cracking and the ability to fix their shape Get updates Continue to cool slowly. At the cooling rate selected from the cooling area Pre-defined temperature zone corresponding to the pre-defined temperature region S, which is specified in the form Surrounded by a slanting line in the drawing that is appended

Claims (1)

1.Process for the production of aluminum alloy sheets with increased resistance to cracking. From stress corrosion cracking under stress and capability In the enhanced shape fixation, the sequential process consists of: annealing continuous cast sheets and rolled by rollers of aluminum alloy containing Mg in an amount of 3 to 5% by weight; Correct the stress on an anneal sheet by rolling with a roller. Or retaining with a 0.5-2% sheet thickness loss; To heat the corrected plates. Temperature stress selected from pre-set temperature region, pre-set temperature region It is identified in such a way that the orthogonate system is drawn with the abscissa core of the heat () temperature and the cooling rate (/ s) orthinate core. Temperature range The heat is surrounded by a straight line connection between the coordinates (240,5.0 x 10-3) and the coordinates (340,2.5 x 10-3), the straight line between the coors. Dinate (240,1.0 x 10-3) and coordinate (340,1.0 x 10-3), a line between a coordinate (240,5.0 x 10-3) and a coordinate. The cardinate (240,1.0 x 10-3), and the line between the coordinate (340,2.5 x 10-3) and the coordinate (340,1.0 x 10-3), Respectively; Place the heated pad at the selected temperature for an hour or more; And later cooling the plates at a cooling rate corresponding to the pre-set temperature area