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    • 47. 发明授权
    • Silver-white copper alloy and method of producing silver-white copper alloy
    • 银白铜合金和银白铜合金的制造方法
    • US09512507B2
    • 2016-12-06
    • US14115062
    • 2012-06-27
    • Shinji TanakaKeiichiro OishiHiroharu Ogawa
    • Shinji TanakaKeiichiro OishiHiroharu Ogawa
    • C22C9/04C22F1/08
    • C22C9/04C22F1/08
    • Provided are a silver-white copper alloy which has superior mechanical properties such as hot workability, cold workability, or press property, color fastness, bactericidal and antibacterial properties, and Ni allergy resistance; and a method of producing such a silver-white copper alloy. The silver-white copper alloy includes 51.0 mass % to 58.0 mass % of Cu; 9.0 mass % to 12.5 mass % of Ni; 0.0003 mass % to 0.010 mass % of C; 0.0005 mass % to 0.030 mass % of Pb; and the balance of Zn and inevitable impurities, in which a relationship of 65.5≦[Cu]+1.2×[Ni]≦70.0 is satisfied between a content of Cu [Cu] (mass %) and a content of Ni [Ni] (mass %). In a metal structure thereof, an area ratio of β phases dispersed in an α-phase matrix is 0% to 0.9%.
    • 提供具有优异的机械性能如热加工性,冷加工性或冲压性,耐色牢度,杀菌和抗菌性能以及耐镍过敏性的银白铜合金。 以及制造这种银白铜合金的方法。 银白色铜合金含有Cu:51.0质量%〜58.0质量% 9.0质量%〜12.5质量%的Ni; 0.0003质量%〜0.010质量% 0.0005质量%至0.030质量%的Pb; 并且在Cu [Cu](质量%)的含量与Ni [Ni](含量)的含量之间满足65.5≤[Cu] + 1.2×[Ni]≤70.0的关系的Zn和不可避免的杂质的平衡 质量%)。 在其金属结构中,分散在α相基体中的β相的面积比为0〜0.9%。
    • 48. 发明申请
    • HIGH-STRENGTH COPPER ALLOY FORGING MATERIAL
    • 高强度铜合金锻造材料
    • US20130323114A1
    • 2013-12-05
    • US13985729
    • 2012-02-14
    • Yoshiharu MiyabeMamoru MizusawaShinji Tanaka
    • Yoshiharu MiyabeMamoru MizusawaShinji Tanaka
    • C22C9/06
    • C22C9/06B21J1/003C22C1/02C22F1/08
    • The present invention relates to a high-strength copper alloy forging material having properties of high hardness, high strength and high thermal conductivity.The high-strength copper alloy forging material contains, in mass %, 3 to 7.2% of Ni, 0.7 to 1.8% of Si, 0.02 to 0.35% of Zr and 0.002 to 0.05% of P, and further contains 1.5% or less of one or two or more of Cr, Mn and Zn in total, as needed, whereby appropriate amounts of Zr and P act to cause cracks to be less likely to occur in the material during working or heat treatment. After the working and the heat treatment, the forging material of the invention can have properties of high hardness, high strength and high thermal conductivity, and can be suitably used for resin injection mold materials, aircraft components and the like.
    • 本发明涉及具有高硬度,高强度和高导热性的高强度铜合金锻造材料。 高强度铜合金锻造材料以质量%计含有3〜7.2%的Ni,0.7〜1.8%的Si,0.02〜0.35%的Zr和0.002〜0.05%的P,进一步含有1.5%以下的 根据需要,总共含有一种或两种以上的Cr,Mn和Zn,由此适当量的Zr和P起作用以在加工或热处理期间不太可能在材料中发生裂纹。 在加工和热处理之后,本发明的锻造材料可以具有高硬度,高强度和高导热性的特性,并且可以适用于树脂注射模具材料,飞行器部件等。
    • 50. 发明申请
    • SOLAR CELL BACK SHEET FILM AND METHOD FOR PRODUCING THE SAME
    • 太阳能电池片及其制造方法
    • US20120295101A1
    • 2012-11-22
    • US13521406
    • 2011-01-18
    • Shinji Tanaka
    • Shinji Tanaka
    • H01L31/052H01L31/18G02B5/08B32B27/20
    • C08J7/042C08J2367/02C08J2423/02Y10T428/265Y10T428/2848
    • The present invention provides a film for a solar cell back sheet including: a substrate film; a white layer on at least one surface of the substrate film; and an adhesive protective layer, the white layer being formed by applying an aqueous composition for the white layer including a white pigment, a first aqueous binder and an inorganic oxide filler to at least one surface of the substrate film, and the adhesive protective layer being formed by applying an aqueous composition for the adhesive protective layer including a second aqueous binder, and which has excellent production efficiency, a white pigment uniformly present in the layers, and excellent adhesiveness between the respective layers, and a producing method of the film for a solar cell back sheet.
    • 本发明提供一种太阳能电池背板用薄膜,其特征在于,包括:基板薄膜; 在所述基底膜的至少一个表面上的白色层; 和粘合保护层,所述白色层通过将白色颜料,第一含水粘合剂和无机氧化物填料的白色层用水性组合物涂布在所述基材膜的至少一个表面上而形成,所述粘合保护层为 通过涂布含有第二水性粘合剂的粘合保护层的水性组合物,其生产效率优异,层中均匀存在的白色颜料以及各层之间的优异的粘合性,以及制备方法 太阳能电池背板。