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    • 12. 发明申请
    • High strength aluminum alloy casting and method of production of same
    • 高强度铝合金铸造及其生产方法相同
    • US20080083478A1
    • 2008-04-10
    • US11986853
    • 2007-11-27
    • Kouji YamadaTomoyuki HatanoSusumu MiyakawaHiromi TakagiHiroshi HorikawaAkio Hashimoto
    • Kouji YamadaTomoyuki HatanoSusumu MiyakawaHiromi TakagiHiroshi HorikawaAkio Hashimoto
    • C22F1/043B22D18/02
    • C22C21/04C22F1/043
    • A high strength aluminum alloy casting obtained by casting an aluminum alloy comprised of 7.5 to 11.5 wt % of Si, 3.8 to 4.8 wt % of Cu, 0.45 to 0.65 wt % of Mg, 0.4 to 0.7 wt % of Fe, 0.35 to 0.45 wt % of Mn, and the balance of Al and not more than 0.2 wt % of unavoidable impurities, wherein this aluminum alloy has 0.1 to 0.3 wt % of Ag added to it or contains 0.1 to 1.0 wt % of at least one element selected from the group of second additive elements comprised of Rb, K, Ba, Sr, Zr, Nb, Ta, V, and Pd and rare earth elements, and a method of production of a high strength aluminum alloy casting comprising the steps of filling a melt of an aluminum alloy in a mold to obtain a casting, taking out the aluminum alloy casting from the mold, solubilizing the high strength aluminum alloy casting by heating in a temperature range of 495 to 505° C. for 2 to 6 hours, quenching the high strength aluminum alloy casting after the solubilization, and age hardening the high strength aluminum alloy casting by heating in a temperature range of 160 to 220° C. for 2 to 6 hours after quenching.
    • 通过铸造由7.5〜11.5重量%的Si,3.8〜4.8重量%的Cu,0.45〜0.65重量%的Mg,0.4〜0.7重量%的Fe,0.35〜0.45重量%的铝构成的高强度铝合金铸件 的Mn,余量为Al和不大于0.2重量%的不可避免的杂质,其中该铝合金添加0.1至0.3重量%的Ag或含有0.1至1.0重量%的至少一种选自 由Rb,K,Ba,Sr,Zr,Nb,Ta,V和Pd以及稀土元素组成的第二添加元素组,以及制造高强度铝合金铸造的方法,包括以下步骤: 在模具中获得铝合金以获得铸件,从模具中取出铝合金铸件,通过在495至505℃的温度范围内加热将高强度铝合金铸件溶解2至6小时,淬火高 强度铝合金铸造后溶解,并且老化硬化高强度铝合金cas 在160-220℃的温度范围内加热淬火2至6小时。
    • 17. 发明授权
    • Image compression device
    • 图像压缩装置
    • US5046122A
    • 1991-09-03
    • US458463
    • 1989-12-28
    • Daisuke NakayaHiroshi Horikawa
    • Daisuke NakayaHiroshi Horikawa
    • G06T9/00H04N1/41H04N1/419
    • H04N1/4105
    • This invention is an image compression device which includes a means to rearrange binary image data in a unit of pixel in accordance with a first conversion table, and a means to encode said rearranged data in accordance with a second conversion table, and which is characterized in that the second conversion table contains a data comprising a code which is added to a predetermined code used for the case where the same logical value continues in the rearranged data and which is based on the number of continuous pixels, a code having the same bit at the leading edge thereof as the leading bit of the predetermined code for the case where the same logical value continues up to the trailing end of the rearranged data, and a code having at its leading edge of a bit different from the leading bit of the predetermined code which is to be used for the data other than above. The above device according to this invention can compress any binary data including line images and dot images at high efficiency and high speed.
    • 本发明是一种图像压缩装置,其包括根据第一转换表以像素为单位重新排列二进制图像数据的装置,以及根据第二转换表对所述重新排列的数据进行编码的装置,其特征在于 第二转换表包含一个数据,该数据包括一个代码,该代码被添加到用于在重新排列的数据中相同的逻辑值继续并且基于连续像素的数目的情况下的预定代码,具有相同位的代码 其前端作为相同逻辑值持续到重新排列的数据的尾端的情况下的预定代码的前导位,以及代码,其在与前述预定代码的引导位不同的位的前沿 用于上述数据的代码。 根据本发明的上述装置可以以高效率和高速度压缩包括线图像和点图像的任何二进制数据。
    • 20. 发明申请
    • ALUMINUM ALLOY MATERIAL FOR USE IN THERMAL CONDUCTION APPLICATION
    • 铝合金材料用于导热应用
    • US20100108209A1
    • 2010-05-06
    • US12527283
    • 2007-02-27
    • Hiroshi HorikawaMasahiko Shioda
    • Hiroshi HorikawaMasahiko Shioda
    • C22F1/043C22C21/04
    • C22F1/043C22C21/02F28D2021/0029F28F21/084
    • An aluminum alloy material for use in thermal conduction to which improved castability has been imparted by silicon addition. It has improved thermal conductivity and improved strength. The material has a composition containing 7.5-12.5 mass % Si and 0.1-2.0 mass % Cu, the remainder being Al and unavoidable impurities, wherein the amount of copper in the state of a solid solution in the matrix phase is regulated to 0.3 mass % or smaller. The composition may further contain at least 0.3 mass % Fe and/or at least 0.1 mass % Mg, provided that the sum of (Fe content) and (content of Mg among the impurities)×2 is 1.0 mass % or smaller and the sum of (Cu content), (content of Mg among the impurities)×2.5, and (content of Zn among the impurities) is 2.0 mass % or smaller.
    • 用于热传导的铝合金材料,其通过硅添加赋予改善的浇铸性。 它具有改善的导热性和改善的强度。 该材料具有含有7.5-12.5质量%Si和0.1-2.0质量%Cu的组成,其余为Al和不可避免的杂质,其中在基质相中的固溶体状态的铜的量调节至0.3质量% 或更小。 如果(Fe含量)和(杂质之间的Mg含量)×2的总和为1.0质量%以下,则组成可以进一步含有至少0.3质量%的Fe和/或0.1质量%以下的Mg, 的(Cu含量),(杂质中的Mg的含量)×2.5,(杂质中的Zn的含量)为2.0质量%以下。