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    • 81. 发明专利
    • Method for producing high-strength aluminum alloy plate used for printing plate and excellent in whitening prevention of backside
    • 用于生产用于印刷板和优良防止背面的高强度铝合金板的方法
    • JP2011157628A
    • 2011-08-18
    • JP2011048580
    • 2011-03-07
    • Kobe Steel Ltd株式会社神戸製鋼所
    • KOBAYASHI KAZUNORI
    • C22F1/04B22D27/04B41N1/08C22C21/00C22F1/00
    • PROBLEM TO BE SOLVED: To provide a method for producing a high-strength aluminum alloy plate for a printing plate, the aluminum alloy plate being excellent in uniformity of an electrolytic roughened surface, being made into a printing plate of which the backside of the electrolytic roughened surface is not whitened, and being excellent in strength characteristic and backside whitening prevention.
      SOLUTION: The method for producing a high-strength aluminum alloy comprises: a first step of making an ingot by melting and casting an aluminum alloy consisting of 0.03 to 0.15 mass% Si, 0.25 to 0.70 mass% Fe, 0.0005 to 0.050 mass% Cu, 0.05 to 0.40 mass% Mg, 0.005 to 0.040 mass% Ti, 0.05 mass% or lower Zn, 0.01 mass% or lower Mn, and the balance including Al and unavoidable impurities; a second step of subjecting the ingot to a homogenizing heat treatment at a temperature of 380 to 600°C; a third step of hot-rolling the ingot at a rolling finish temperature of 300 to 370°C; and a fourth step of producing the aluminum alloy plate by cold-rolling without performing intermediate annealing.
      COPYRIGHT: (C)2011,JPO&INPIT
    • 待解决的问题:为了提供一种用于制造印刷版的高强度铝合金板的方法,将电解粗糙化表面的均匀性优异的铝合金板制成其背面的印刷版 的电解粗糙面未发白,强度特性优异,背面增白防止性优异。 解决方案:高强度铝合金的制造方法包括:通过熔融和铸造由0.03〜0.15质量%的Si,0.25〜0.70质量%的Fe,0.0005〜0.050的Fe合金制成锭的第一工序 质量%Cu,0.05〜0.40质量%Mg,0.005〜0.040质量%Ti,0.05质量%以下Zn,0.01质量%以下Mn,余量包括Al和不可避免的杂质; 第二步,在380〜600℃的温度下进行均质化热处理; 在300-370℃的轧制最终温度下热轧锭的第三步骤; 以及在不进行中间退火的情况下通过冷轧制造铝合金板的第四步骤。 版权所有(C)2011,JPO&INPIT
    • 89. 发明专利
    • Continuous casting method and continuous casting device for amorphous alloy
    • 连续铸造方法和连续铸造非晶态合金装置
    • JP2010184249A
    • 2010-08-26
    • JP2009028544
    • 2009-02-10
    • Olympus Corpオリンパス株式会社
    • FUJII HIROAKISUDA NOBUYUKI
    • B22D27/04B22C9/06B22D45/00
    • PROBLEM TO BE SOLVED: To provide a continuous casting method and a continuous casting device for an amorphous alloy, wherein an improvement in productive efficiency of the molding of an amorphous alloy is attained. SOLUTION: In the continuous method for an amorphous alloy, the continuous casting device 50 is used to carry out: a die heating stage where a die 1 provided with a cavity part 1b for molding at the inside is heated to a temperature higher than the melting point of the raw material alloy of an amorphous alloy; a molten metal filling stage where, in a state in which the die 1 heated by the die heating stage is arranged at a packing chamber 5 whose atmosphere is adjusted to the inert one, a molten metal 26 obtained by heating and melting the raw material alloy is filled into the cavity part 1b for molding in the die 1; a moving stage where the die 1 filled with the molten metal 26 in the molten metal filling stage is moved from the filling chamber 5 to a cooling chamber 6 separately provided from the filling chamber 5; and a cooling stage where the die 1 moved to the cooling chamber 6 by the moving stage is cooled to a temperature below the crystallization temperature of the raw material alloy in such a manner that the cooling velocity of the molten metal 26 in the die 1 holds the critical cooling velocity of the raw material alloy. COPYRIGHT: (C)2010,JPO&INPIT
    • 待解决的问题:提供一种非晶合金的连续铸造方法和连续铸造装置,其中获得非晶态合金成型的生产效率的提高。 解决方案:在非晶合金的连续方法中,连续铸造装置50用于执行:模具加热阶段,其中设置有用于在内部成型的空腔部分1b的模具1被加热到更高的温度 比非晶态合金的原料合金的熔点高; 熔融金属填充阶段,其中在通过模具加热级加热的模具1布置在气氛被调节为惰性的填充室5的状态下,将通过加热熔化原料合金而获得的熔融金属26 填充到模具1中用于模制的空腔部分1b中; 在熔融金属填充阶段填充有熔融金属26的模具1从填充室5移动到从填充室5分开设置的冷却室6的移动阶段; 并且将模具1通过移动台移动到冷却室6的冷却阶段被冷却到低于原料合金的结晶温度的温度,使得模具1中的熔融金属26的冷却速度保持 原料合金的临界冷却速度。 版权所有(C)2010,JPO&INPIT