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    • 5. 发明授权
    • High corrosion resistance hot dip galvanized steel material
    • 高耐腐蚀热浸镀锌钢材
    • US08663818B2
    • 2014-03-04
    • US12224967
    • 2007-03-14
    • Koichi NoseKohei TokudaYuichi SatoMakoto Nakazawa
    • Koichi NoseKohei TokudaYuichi SatoMakoto Nakazawa
    • B32B15/00B32B15/01
    • C23C2/06B32B15/013C22C18/00C22C18/04C22C21/06C22C21/08C22C23/02C22C23/04C22C30/06C22C45/00C22C45/005C23C2/28Y10T428/12757Y10T428/12771Y10T428/12792Y10T428/12799Y10T428/12951
    • The present invention provides a high corrosion resistance hot dip galvannealed steel material comprised of a Zn-based hot dip plated steel material achieving both a higher corrosion resistance of the plated layer itself by the added elements and sacrificial protection of iron metal by the plated layer or workability free of degradation caused of formation of intermetallic compounds by added elements, that is, a high corrosion resistance hot dip Zn plated steel material characterized in that an alloy plated layer containing Zn: 35 mass % or more, preferably 40 mass % or more, contains a non-equilibrium phase having a heat capacity by differential scanning calorimetry of 1 J/g or more. Furthermore, 5% or more, preferably 50% or more in terms of vol % is an amorphous phase. The alloy layer may contain, by mass %, Mg: 1 to 60% and Al: 0.07 to 59%, may further contain one or more elements selected from Cr, Mn, Fe, Co, Ni, and Cu in a total of 0.1 to 10%, and may in addition contain one or more elements of 0.1 to 10% of La, 0.1 to 10% of Ce, 0.1 to 10% of Ca, 0.1 to 10% of Sn, 0.005 to 2% of P, and 0.02 to 7% of Si.
    • 本发明提供一种耐腐蚀性高的浸镀热镀锌钢材,其由Zn基热浸镀钢材组成,通过添加的元素实现镀层本身的较高的耐腐蚀性,并通过镀层牺牲铁金属的牺牲保护,或 不含添加元素形成金属间化合物的劣化的可加工性,即耐腐蚀性高的镀锌钢材,其特征在于,含有Zn:35质量%以上,优选为40质量%以上的合金镀层, 含有通过差示扫描量热法测定的热容量为1J / g以上的非平衡相。 此外,以体积%计为5%以上,优选为50%以上是非晶相。 合金层可以以质量%计含有Mg:1〜60%,Al:0.07〜59%,还可以含有选自Cr,Mn,Fe,Co,Ni和Cu中的一种或多种元素,总计0.1 〜10%,另外可以含有0.1〜10%的La,0.1〜10%的Ce,0.1〜10%的Ca,0.1〜10%的Sn,0.005〜2%的P,以及 0.02〜7%的Si。
    • 6. 发明申请
    • High Corrosion Resistance Hot dip Galvanized Steel Material
    • 耐腐蚀性高浸镀锌钢材料
    • US20090053555A1
    • 2009-02-26
    • US12224967
    • 2007-03-14
    • Koichi NoseKohei TokudaYuichi SatoMakoto Nakazawa
    • Koichi NoseKohei TokudaYuichi SatoMakoto Nakazawa
    • B32B15/20B32B15/01B32B15/18
    • C23C2/06B32B15/013C22C18/00C22C18/04C22C21/06C22C21/08C22C23/02C22C23/04C22C30/06C22C45/00C22C45/005C23C2/28Y10T428/12757Y10T428/12771Y10T428/12792Y10T428/12799Y10T428/12951
    • The present invention provides a high corrosion resistance hot dip galvannealed steel material comprised of a Zn-based hot dip plated steel material achieving both a higher corrosion resistance of the plated layer itself by the added elements and sacrificial protection of iron metal by the plated layer or workability free of degradation caused of formation of intermetallic compounds by added elements, that is, a high corrosion resistance hot dip Zn plated steel material characterized in that an alloy plated layer containing Zn: 35 mass % or more, preferably 40 mass % or more, contains a non-equilibrium phase having a heat capacity by differential scanning calorimetry of 1 J/g or more. Furthermore, 5% or more, preferably 50% or more in terms of vol % is an amorphous phase. The alloy layer may contain, by mass %, Mg: 1 to 60% and Al: 0.07 to 59%, may further contain one or more elements selected from Cr, Mn, Fe, Co, Ni, and Cu in a total of 0.1 to 10%, and may in addition contain one or more elements of 0.1 to 10% of La, 0.1 to 10% of Ce, 0.1 to 10% of Ca, 0.1 to 10% of Sn, 0.005 to 2% of P, and 0.02 to 7% of Si.
    • 本发明提供一种耐腐蚀性高的浸镀热镀锌钢材,其由Zn基热浸镀钢材组成,通过添加的元素实现镀层本身的较高的耐腐蚀性,并通过镀层牺牲铁金属的牺牲保护,或 不含添加元素形成金属间化合物的劣化的可加工性,即耐腐蚀性高的镀锌钢材,其特征在于,含有Zn:35质量%以上,优选为40质量%以上的合金镀层, 含有通过差示扫描量热法测定的热容量为1J / g以上的非平衡相。 此外,以体积%计为5%以上,优选为50%以上是非晶相。 合金层可以以质量%计含有Mg:1〜60%,Al:0.07〜59%,还可以含有选自Cr,Mn,Fe,Co,Ni和Cu中的一种或多种元素,总计0.1 〜10%,另外可以含有0.1〜10%的La,0.1〜10%的Ce,0.1〜10%的Ca,0.1〜10%的Sn,0.005〜2%的P,以及 0.02〜7%的Si。
    • 8. 发明授权
    • Composite-molding method and injection-molding machine of different material resin
    • 复合成型方法和不同材料树脂的注塑机
    • US07070724B2
    • 2006-07-04
    • US10326534
    • 2002-12-19
    • Makoto Nakazawa
    • Makoto Nakazawa
    • B29C45/16
    • B29C45/062B29C45/1615B29C45/572B29C2045/167
    • The present invention has an object of eliminating the holding pin trace of a composite-molding of the dichromatic molding by refilling with resin by the pushing pin and preventing the lateral-shift of the primary molding during the refilling. It is made possible to fill closed recess and cavity with resin through a communicating hole formed in the primary molding by the pushing pin. A primary cavity mold 11 and a secondary cavity mold 12 are juxtaposed at symmetrical positions of a fixed plate 1. Core molds 14 closing alternately with both thereof are juxtaposed on a rotary table 7 installed on a movable platen 4. Holding pins 15 of the primary molding 30 and a resin pushing pin 16 are installed in the core mold 14 in a way to appear and disappear in respect to a cavity. The primary molding 30 is held in contact with the surface of the secondary cavity mold by the holding pin 15. A pin hole 20 for refilling resin is formed to be opened on a surface of the core mold by retracting the pushing pin 16. A secondary cavity including the pin hole 20 is refilled with a different material resin by injection. The holding pin 15 is retracted and sunk in the surface of the cavity mold. The pushing pin 16 is moved forward to force the resin for refilling the pin hole 20 into the resin in the cavity. The regions not filled with resin due to the holding pin 15 are refilled up.
    • 本发明的目的是通过用推脂销填充树脂来消除二色成型件的复合成型的保持销迹线,并防止在再填充期间初级成型件的横向偏移。 通过推模形成在一次成型体中的连通孔,可以将树脂密闭的凹部和腔体填充。 主腔模11和次腔模12并置在固定板1的对称位置。 与其两者交替关闭的芯模14并置在安装在可动台板4上的旋转台7上。 一次成型体30的保持销15和树脂推压销16以相对于空腔出现和消失的方式安装在芯模14中。 主模30通过保持销15与二次模模的表面保持接触。 通过缩回推压销16,在芯模的表面上形成用于再填充树脂的销孔20。 包括针孔20的次级腔通过注射再填充不同的材料树脂。 保持销15缩回并沉入空腔模具的表面。 推动销16向前移动以迫使树脂将针孔20再填充到空腔中的树脂中。 由于保持销15而不填充树脂的区域被再填充。
    • 10. 发明授权
    • Film image reading system and image processing method
    • 电影图像阅读系统和图像处理方法
    • US5740312A
    • 1998-04-14
    • US416315
    • 1995-04-04
    • Hiroshi TanakaAtsuhiko IshiharaManabu HyodoMakoto Nakazawa
    • Hiroshi TanakaAtsuhiko IshiharaManabu HyodoMakoto Nakazawa
    • G06T1/00H04N1/60H04N3/38H04N5/253H04N9/11H04N5/97
    • H04N3/38H04N1/6027H04N5/253H04N9/11
    • An apparatus achieves an exposure control for getting an image with the best SN without a mechanical iris and an image processing which is good at the color-reappearance and the gradation property with a simple digital processing circuit. When the film image is read by the line sensor 14 which has an electric shutter function, the electric shutter, the film feeding speed and the analog amplifier 16 are controlled totally so as to obtain images with the best SN from high to low transmittance negatives. And, when the dot sequential R, G, B digital signals are processed digitally, the offset values and the gain volumes of the respective R, G, B are calculated based on the maximum value and the minimum value which are detected by the respective R, G, B digital signals, the calculated offset values of the respective R, G, B are added to the dot sequential R, G, B digital signals which are obtained during the re-scanning, and the calculated gain volumes of the respective R, G, B are multiplied by the offset dot-sequential R, G, B digital signals so as to adjust the white balance and the black balance.
    • 一种装置实现了利用简单的数字处理电路获得具有最佳SN的图像的曝光控制,而没有机械光圈和具有良好的颜色再现性和灰度特性的图像处理。 当通过具有电动快门功能的线传感器14读取胶片图像时,完全控制电动快门,胶片馈送速度和模拟放大器16,以便获得具有从高到低透射率底片的最佳SN的图像。 并且,当点数R,G,B数字信号被数字地处理时,相应的R,G,B的偏移值和增益容积根据由相应R检测的最大值和最小值计算 ,G,B数字信号,将相应的R,G,B的计算的偏移值加到在重新扫描期间获得的点连续的R,G,B数字信号中,并且计算出的相应R的增益量 ,G,B乘以偏移点顺序R,G,B数字信号,以调整白平衡和黑平衡。