COLD-ROLLING METHOD FOR A WROUGHT MG ALLOY WITH WEAK/NON-BASAL TEXTURE AND A COLD ROLLED SHEET
    1.
    发明申请
    COLD-ROLLING METHOD FOR A WROUGHT MG ALLOY WITH WEAK/NON-BASAL TEXTURE AND A COLD ROLLED SHEET 审中-公开
    一种具有弱/非基本纹理和冷轧板的耐磨镁合金的冷轧方法

    公开(公告)号:US20120288398A1

    公开(公告)日:2012-11-15

    申请号:US13460382

    申请日:2012-04-30

    IPC分类号: B21B3/00 C22C23/00 C22F1/06

    CPC分类号: C22F1/06 C22C23/04 C22C23/06

    摘要: The present invention relates to a cold-rolling method for cold-rolling a wrought Mg alloy with a weak or non-basal texture as well as a cold-rolled sheet, the method comprising the steps of: pre-treating a billet of the wrought Mg alloy with a weak or non-basal texture, and then cold rolling it; wherein the weak or non-basal texture plane of said billet is selected as a rolling plane, and the rolling direction is parallel to the rolling plane; and said billet is cold rolled at room temperature to a sheet or foil with a thickness of 0.1 to 100 mm, wherein single-pass or multi-pass rolling is used, and the cold rolling is followed by an annealing at 200 to 400° C. for 10 min to 48 h.

    摘要翻译: 本发明涉及一种用于冷轧具有弱或非基础结构的锻造Mg合金以及冷轧板的冷轧方法,该方法包括以下步骤:对锻造的坯料进行预处理 镁合金具有弱或非基础的质感,然后冷轧; 选择所述坯料的弱或非基础结构平面作为轧制平面,并且轧制方向平行于轧制平面; 并将所述坯料在室温下冷轧至厚度为0.1〜100mm的片材或箔片,其中使用单程或多次轧制,然后在200-400℃下进行冷轧 10分钟至48小时。

    Preparation method of laminated composite materials of different alloys
    2.
    发明授权
    Preparation method of laminated composite materials of different alloys 有权
    不同合金层压复合材料的制备方法

    公开(公告)号:US07845203B2

    公开(公告)日:2010-12-07

    申请号:US11902647

    申请日:2007-09-24

    IPC分类号: B21C23/00

    摘要: The invention relates to a new preparation technique of composites, in details, i.e. a method of producing laminated composite materials of different alloys. In the preparation method, the bi-layer or multi-layer composites are prepared by means of the equal channel angular extrusion/pressure (ECAE/ECAP). Firstly, the appropriate alloys pairs or groups are selected, and the rational arrangements are carried out after pre-treating surfaces; then, the clad process is performed by extrusion and shear deformation in ECAE die; finally, the composite material is produced after one single pass or multiple passes clad extrusion. The annealing treatment can be performed subsequently to enhance the interfacial bonding strength by diffusion after the clad extrusion, and the heat treatment parameters consist of annealing temperature and holding time, which are chosen carefully to meet the demands of the refining microstructures and good properties for both the interfaces and individual component metals. Consequently, the layer-metal composite is produced with the firmly bonding interface, good microstructures and excellent properties. In the invention, the selection and assembling manners of the materials are very free, such as composites with bi-layer or interval multi-layer manners, and the method is suitable for most of the metal materials. The invention is a new method of fabricating composites and the preparation cost is low enough to meet the demand of large-scale industrial production.

    摘要翻译: 本发明涉及复合材料的新制备技术,详细地涉及生产不同合金层压复合材料的方法。 在制备方法中,通过等通道角挤压/压力(ECAE / ECAP)制备双层或多层复合材料。 首先,选择适当的合金对或组,合理布置在预处理表面之后进行; 然后,通过ECAE模具中的挤出和剪切变形进行包覆工艺; 最后,复合材料在一次通过或多次通过包层挤出之后生产。 随后可以进行退火处理,以在包层挤出后通过扩散来提高界面结合强度,并且热处理参数由退火温度和保持时间组成,其被仔细选择以满足精炼微结构的要求和良好的性能 界面和各组分金属。 因此,层状金属复合材料具有牢固的结合界面,良好的微结构和优异的性能。 在本发明中,材料的选择和组装方式是非常自由的,例如具有双层或间隔多层方式的复合材料,并且该方法适用于大多数金属材料。 本发明是一种制备复合材料的新方法,其制备成本低到足以满足大规模工业生产的需求。

    Chromate-free conversion film solution and the method of applying the solution to magnesium alloys
    3.
    发明授权
    Chromate-free conversion film solution and the method of applying the solution to magnesium alloys 有权
    不含铬酸盐的转化膜溶液和将溶液施加到镁合金的方法

    公开(公告)号:US08696831B2

    公开(公告)日:2014-04-15

    申请号:US12832163

    申请日:2010-07-08

    IPC分类号: C23C22/48 C23C22/18 C23C22/07

    摘要: Disclosed herein is a chromate-free conversion film solution and a method of applying the solution to magnesium and magnesium alloys. The solution contains zirconium ions, manganese ions, barium ions and phosphate corrosion inhibitor; and the pH of the said solution is in the range of 1-5; and may further comprise molybdate as accelerant. The method comprises degreasing, acid etching, surface activation, surface adjusting, and film forming steps. The conversion film obtained in accordance with the disclosed method is uniform, smooth, and compact and has high corrosion resistance and good adhesion with paint film. Moreover, the chromate-free conversion film solution is environmentally friendly and possesses fast film growth rates.

    摘要翻译: 本文公开了不含铬酸盐的转化膜溶液和将该溶液施加到镁和镁合金的方法。 该溶液含有锆离子,锰离子,钡离子和磷酸盐缓蚀剂; 并且所述溶液的pH在1-5的范围内; 并且还可以包含钼酸盐作为促进剂。 该方法包括脱脂,酸蚀刻,表面活化,表面调整和成膜步骤。 根据所公开的方法获得的转印膜是均匀,光滑和致密的,并且具有高耐腐蚀性和与漆膜的良好粘附性。 此外,无铬酸盐转化膜溶液是环境友好的并且具有快速的膜生长速率。

    Chromate-free Conversion Film Solution and the Method of Applying the Solution to Magnesium Alloys
    4.
    发明申请
    Chromate-free Conversion Film Solution and the Method of Applying the Solution to Magnesium Alloys 有权
    无铬酸盐转化膜溶液及其应用于镁合金的方法

    公开(公告)号:US20110226388A1

    公开(公告)日:2011-09-22

    申请号:US12832163

    申请日:2010-07-08

    IPC分类号: C23C22/07

    摘要: Disclosed herein is a chromate-free conversion film solution and a method of applying the solution to magnesium and magnesium alloys. The solution contains zirconium ions, manganese ions, barium ions and phosphate corrosion inhibitor; and the pH of the said solution is in the range of 1-5; and may further comprise molybdate as accelerant. The method comprises degreasing, acid etching, surface activation, surface adjusting, and film forming steps. The conversion film obtained in accordance with the disclosed method is uniform, smooth, and compact and has high corrosion resistance and good adhesion with paint film. Moreover, the chromate-free conversion film solution is environmentally friendly and possesses fast film growth rates.

    摘要翻译: 本文公开了不含铬酸盐的转化膜溶液和将该溶液施加到镁和镁合金的方法。 该溶液含有锆离子,锰离子,钡离子和磷酸盐缓蚀剂; 并且所述溶液的pH在1-5的范围内; 并且还可以包含钼酸盐作为促进剂。 该方法包括脱脂,酸蚀刻,表面活化,表面调整和成膜步骤。 根据所公开的方法获得的转印膜是均匀,光滑且致密的,并且具有高耐腐蚀性和与漆膜的良好粘附性。 此外,无铬酸盐转化膜溶液是环境友好的并且具有快速的膜生长速率。

    HIGH STRENGTH AND HIGH DUCTILITY MAGNESIUM ALLOY AND ITS PREPARATION METHOD
    5.
    发明申请
    HIGH STRENGTH AND HIGH DUCTILITY MAGNESIUM ALLOY AND ITS PREPARATION METHOD 审中-公开
    高强度和高密度镁合金及其制备方法

    公开(公告)号:US20090068053A1

    公开(公告)日:2009-03-12

    申请号:US10582541

    申请日:2005-04-11

    IPC分类号: C22C23/02 B22D23/00 B22D27/04

    摘要: The present invention relates to a high strength and high ductility magnesium alloy and its preparation method. The magnesium alloy in the present invention contains 3˜9 wt % of aluminum, 3.5˜9 wt % of zinc, 0.15˜1 wt % of manganese, 0.01˜2 wt % of antimony, and balanced magnesium. The alloy may further comprise 0˜2 wt. % of one element selected from the group consisting of mischmetal, calcium, and silicon. The room temperature mechanical properties of the T6 heat-treated typical alloy in the present invention are as following: Ultimate Tensile Strength of more than or equal to 270 Mpa, Yield Tensile Strength of more than or equal to 140 Mpa, Elongation of more than or equal to 6%, Brinell hardness of more than or equal to 70, Impact Energy of more than or equal to 12 J. Some of the alloys in the present invention not only possess superior room temperature mechanical properties, but also have very good high temperature mechanical properties. The main alloying elements are easily obtainable and the preparation cost is low enough to meet the demands of large-scale production. The alloy according to the present invention was applicable for most of the casting processes, such as permanent casting, sand casting, die casting, and squeeze casting.

    摘要翻译: 本发明涉及高强度,高延展性的镁合金及其制备方法。 本发明的镁合金含有3〜9重量%的铝,3.5〜9重量%的锌,0.15〜1重量%的锰,0.01〜2重量%的锑和平衡的镁。 合金还可以包含0〜2wt。 选自由混合金属,钙和硅组成的组中的一种元素的%。 本发明的T6热处理典型合金的室温机械性能如下:极限拉伸强度大于或等于270MPa,拉伸强度大于或等于140MPa,伸长率大于或等于140MPa 等于6%,布氏硬度大于或等于70,冲击能大于或等于12 J.本发明中的一些合金不仅具有优异的室温机械性能,而且具有非常好的高温 机械性能。 主要的合金元素易于获得,制备成本低到足以满足大规模生产的要求。 根据本发明的合金可用于大多数铸造工艺,例如永久铸造,砂铸,压铸和挤压铸造。

    Preparation method of laminated composite materials of different alloys
    6.
    发明申请
    Preparation method of laminated composite materials of different alloys 有权
    不同合金层压复合材料的制备方法

    公开(公告)号:US20080276681A1

    公开(公告)日:2008-11-13

    申请号:US11902647

    申请日:2007-09-24

    IPC分类号: B21C23/01

    摘要: The invention relates to a new preparation technique of composites, in details, i.e. a method of producing laminated composite materials of different alloys. In the preparation method, the bi-layer or multi-layer composites are prepared by means of the equal channel angular extrusion/pressure (ECAE/ECAP). Firstly, the appropriate alloys pairs or groups are selected, and the rational arrangements are carried out after pre-treating surfaces; then, the clad process is performed by extrusion and shear deformation in ECAE die; finally, the composite material is produced after one single pass or multiple passes clad extrusion. The annealing treatment can be performed subsequently to enhance the interfacial bonding strength by diffusion after the clad extrusion, and the heat treatment parameters consist of annealing temperature and holding time, which are chosen carefully to meet the demands of the refining microstructures and good properties for both the interfaces and individual component metals. Consequently, the layer-metal composite is produced with the firmly bonding interface, good microstructures and excellent properties. In the invention, the selection and assembling manners of the materials are very free, such as composites with bi-layer or interval multi-layer manners, and the method is suitable for most of the metal materials. The invention is a new method of fabricating composites and the preparation cost is low enough to meet the demand of large-scale industrial production.

    摘要翻译: 本发明涉及复合材料的新制备技术,详细地涉及生产不同合金层压复合材料的方法。 在制备方法中,通过等通道角挤压/压力(ECAE / ECAP)制备双层或多层复合材料。 首先,选择适当的合金对或组,合理布置在预处理表面之后进行; 然后,通过ECAE模具中的挤出和剪切变形进行包覆工艺; 最后,复合材料在一次通过或多次通过包层挤出之后生产。 随后可以进行退火处理,以在包层挤出后通过扩散来提高界面结合强度,并且热处理参数由退火温度和保持时间组成,其被仔细选择以满足精炼微结构的要求和对于两者的良好性能 界面和各组分金属。 因此,层状金属复合材料具有牢固的结合界面,良好的微结构和优异的性能。 在本发明中,材料的选择和组装方式是非常自由的,例如具有双层或间隔多层方式的复合材料,并且该方法适用于大多数金属材料。 本发明是一种制备复合材料的新方法,其制备成本低到足以满足大规模工业生产的需求。