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    • 1. 发明授权
    • Method for producing a magnesium-lanthanum praseodymium cerium intermediate alloy
    • 镁镧镨铈中间合金的制造方法
    • US07744814B2
    • 2010-06-29
    • US12343414
    • 2008-12-23
    • Jian MengDaqing FangDeping ZhangJiacheng ShenDingxiang TangHongjie Zhang
    • Jian MengDaqing FangDeping ZhangJiacheng ShenDingxiang TangHongjie Zhang
    • C25C1/24
    • C25C3/34
    • Methods for producing a magnesium-rare earth intermediate alloy, which belongs to the technical field of molten salt electrolytic metallurgical technology. In one embodiment, the method comprises subjecting magnesium chloride, lanthanum praseodymium cerium chloride and potassium chloride to an electrolysis, and adding additional lanthanum praseodymium cerium chloride and magnesium chloride during the electrolysis. In the electrolysis process, neither metal magnesium nor rare earth metal is used, only the chlorides of rare earths and magnesium are used and the rare earth ions and the magnesium ions are co-electrodeposited on the cathode, so as to obtain the intermediate alloy having a melting point close to the eutectic temperature of the rare earth and magnesium. The method has various advantages including but not limited to high operability, simple process and equipment, stable quality of product by mass production and easy for commercial scale production.
    • 属于熔盐电解冶金技术领域的镁 - 稀土中间体合金的制造方法。 在一个实施方案中,该方法包括使氯化镁,氯化镧镧氯化铯和氯化钾进行电解,并在电解过程中加入另外的镧氯化铈和氯化镁。 在电解过程中,不使用金属镁和稀土金属,仅使用稀土和镁的氯化物,稀土离子和镁离子共沉积在阴极上,以获得具有 熔点接近稀土和镁的共晶温度。 该方法具有多种优点,包括但不限于可操作性高,工艺简单,设备简单,产品质量稳定,生产量大,易于商业化生产。
    • 2. 发明授权
    • High-strength, high-toughness, weldable and deformable rare earth magnesium alloy
    • 高强度,高韧性,可焊接和可变形的稀土镁合金
    • US07708937B2
    • 2010-05-04
    • US12105165
    • 2008-04-17
    • Jian MengDaqing FangDeping ZhangDingxiang TangHuayi LuLianshan ZhaoWei SunXin QiuHongjie Zhang
    • Jian MengDaqing FangDeping ZhangDingxiang TangHuayi LuLianshan ZhaoWei SunXin QiuHongjie Zhang
    • C22C23/06C22C23/00
    • C22C23/04C22F1/06
    • A high-strength, high-toughness, weldable and deformable rare earth magnesium alloy comprised of 0.7˜1.7% of Ym, 5.5˜6.4% of Zn, 0.45˜0.8% of Zr, 0.02% or less of the total amount of impurity elements of Si, Fe, Cu and Ni, and the remainder of Mg, based on the total weight of the alloy. During smelting, Y, Ho, Er, Gd and Zr are added in a manner of Mg—Y-rich, Mg—Zr intermediate alloys into a magnesium melt; Zn is added in a manner of pure Zn, and at 690˜720° C., a round bar was cast by a semi-continuous casting or a water cooled mould, then an extrusion molding was performed at 380˜410° C. after cutting. Before the extrusion, the alloy is treated by the solid-solution treatment at 480˜510° C. for 2˜3 hours, however, the alloy can also be extrusion molded directly without the solid-solution treatment. After the extrusion molding, this alloy has a strength of 340 MPa or more and a percentage elongation of 14% or more at room temperature and is a high-strength, high-toughness, weldable and deformable rare earth magnesium alloy.
    • 一种高强度,高韧性,可焊接和可变形的稀土镁合金,其含有0.7〜1.7%的Ym,5.5〜6.4%的Zn,0.45〜0.8%的Zr,0.02%以下的杂质元素总量 的Si,Fe,Cu和Ni,剩余的Mg基于合金的总重量。 在熔炼过程中,以Mg-Y,Mg-Zr中间合金的方式将Y,Ho,Er,Gd和Zr加入到镁熔体中; 以纯Zn的方式添加Zn,在690〜720℃下,通过半连续铸造或水冷模具浇铸圆棒,然后在380〜410℃下进行挤出成型 切割。 在挤出前,合金在480〜510℃固溶处理2〜3小时,然而合金也可直接挤出成形而无需固溶处理。 挤出成型后,该合金的室温下的强度为340MPa以上,伸长率为14%以上,为高强度,高韧性,可焊接且可变形的稀土类镁合金。
    • 3. 发明申请
    • HIGH-STRENGTH, HIGH-TOUGHNESS, WELDABLE AND DEFORMABLE RARE EARTH MAGNESIUM ALLOY
    • 高强度,高韧性,可焊接和可变稀土元素镁合金
    • US20090263271A1
    • 2009-10-22
    • US12105165
    • 2008-04-17
    • Jian MengDaqing FangDeping ZhangDingxiang TangHuayi LuLianshan ZhaoWei SunXin QiuHongjie Zhang
    • Jian MengDaqing FangDeping ZhangDingxiang TangHuayi LuLianshan ZhaoWei SunXin QiuHongjie Zhang
    • C22C23/00
    • C22C23/04C22F1/06
    • A high-strength, high-toughness, weldable and deformable rare earth magnesium alloy comprised of 0.7˜1.7% of Ym, 5.5˜6.4% of Zn, 0.45˜0.8% of Zr, 0.02% or less of the total amount of impurity elements of Si, Fe, Cu and Ni, and the remainder of Mg, based on the total weight of the alloy. During smelting, Y, Ho, Er, Gd and Zr are added in a manner of Mg—Y-rich, Mg—Zr intermediate alloys into a magnesium melt; Zn is added in a manner of pure Zn, and at 690˜720° C., a round bar was cast by a semi-continuous casting or a water cooled mould, then an extrusion molding was performed at 380˜410° C. after cutting. Before the extrusion, the alloy is treated by the solid-solution treatment at 480˜510° C. for 2˜3 hours, however, the alloy can also be extrusion molded directly without the solid-solution treatment. After the extrusion molding, this alloy has a strength of 340 MPa or more and a percentage elongation of 14% or more at room temperature and is a high-strength, high-toughness, weldable and deformable rare earth magnesium alloy.
    • 高强度,高韧性,可焊接和可变形的稀土镁合金由Ym的0.7〜1.7%,Zn的5.5〜6.4%,Zr的0.45〜0.8%,杂质元素的总量的0.02%以下 的Si,Fe,Cu和Ni,剩余的Mg基于合金的总重量。 在熔炼过程中,以Mg-Y,Mg-Zr中间合金的方式将Y,Ho,Er,Gd和Zr加入到镁熔体中; 以纯Zn的方式添加Zn,在690〜720℃下,通过半连续浇铸或水冷模具浇铸圆棒,然后在380〜410℃下进行挤出成型 切割。 在挤出前,合金经480〜510℃的固溶处理2〜3小时,然而,该合金也可直接挤出成型,无需固溶处理。 挤出成型后,该合金的室温下的强度为340MPa以上,伸长率为14%以上,为高强度,高韧性,可焊接且可变形的稀土类镁合金。
    • 4. 发明申请
    • METHOD FOR PRODUCING A MAGNESIUM-LANTHANUM PRASEODYMIUM CERIUM INTERMEDIATE ALLOY
    • 生产镁 - 中华矾土中间合金的方法
    • US20090166216A1
    • 2009-07-02
    • US12343414
    • 2008-12-23
    • Jian MENGDaqing FANGDeping ZHANGJiacheng SHENDingxiang TANGHongjie ZHANG
    • Jian MENGDaqing FANGDeping ZHANGJiacheng SHENDingxiang TANGHongjie ZHANG
    • C25C1/24
    • C25C3/34
    • The invention relates to a method for producing a magnesium-rare earth intermediate alloy, which belongs to the technical field of molten salt electrolytic metallurgical technology. Inside an electrolysis oven, magnesium chloride, lanthanum praseodymium cerium chloride and potassium chloride in a controlled mass ratio of 5:(40-35):(55-60) are formulated as electrolyte composition, and the electrolysis is performed under a temperature of 800-900° C., a cathode current density of 10-30 A/cm2, and a distance between the electrodes of 4 to 8 cm; and the lanthanum praseodymium cerium chloride and the magnesium chloride are added in a mass ratio of 1:1.5-5 during the electrolysis, thus the magnesium-lanthanum praseodymium cerium intermediate alloy is produced. In the electrolysis process, neither metal magnesium nor rare earth metal is used, only the chlorides of rare earths and magnesium are used, and the rare earth ions and the magnesium ions are co-electrodeposited on the cathode, so as to obtain the intermediate alloy having a melting point close to the eutectic temperature of the rare earth and magnesium. The method has the advantages of high operability, simple process and equipment, stable quality of product by mass production, and easy for commercial scale production.
    • 本发明涉及一种属于熔盐电解冶金技术领域的镁 - 稀土中间体合金的制备方法。 在电解炉内,以5:(40-35):(55-60)的质量控制比例将氯化镁,氯化镧氯化铯和氯化钾配制成电解质组成,电解温度为800℃ -900℃,阴极电流密度为10-30A / cm 2,电极间距离为4至8cm; 并且在电解过程中以1:1.5-5的质量比加入氯化铈镧铈和氯化镁,从而制备镁 - 镧镨铈中间体合金。 在电解过程中,既不使用金属镁也不使用稀土金属,仅使用稀土类和镁类的氯化物,将稀土离子和镁离子共沉积在阴极上,得到中间合金 具有接近稀土和镁的共晶温度的熔点。 该方法具有操作性好,工艺流程设备简单,批量生产质量稳定,易于商业化生产的优点。