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    • 41. 发明公开
    • 건식법을 이용한 산화물 분산강화형 백금-금 합금 분말의 제조방법
    • 使用干法的氧化物分散加强型铂金合金粉末的制造方法
    • KR1020130109348A
    • 2013-10-08
    • KR1020120031006
    • 2012-03-27
    • 희성금속 주식회사
    • 윤원규양승호박재성김태훈연병훈
    • B22F9/14C22C1/00
    • B22F9/14C22C32/0021
    • PURPOSE: A method for manufacturing a platinum-gold alloy powder is provided to manufacture alloy powder of a final high purity through powder-manufacturing and post-annealing etc. by introducing an environment-friendly plasma method. CONSTITUTION: A method for manufacturing a platinum-gold alloy powder of an oxide dispersion strengthened type comprises the following steps: a platinum-alloy ingot is manufactured by adding an alloy element of a purpose composition into a pure platinum; the manufactured ingot is progressed by performing an inside oxidizing heat treatment process; the platinum-alloy ingot is set inside a plasma device; an inside of the plasma device is depressurized, and a platinum alloy powder is manufactured by forming plasma; and the platinum alloy powder is progressed by performing a thermal process, and a platinum alloy powder of a high purity is manufactured.
    • 目的:提供一种铂金合金粉末的制造方法,通过引入环境友好的等离子体法,通过粉末制造和后退火等制造最终高纯度的合金粉末。 构成:制造氧化物分散强化型铂金合金粉末的方法包括以下步骤:通过将目的组合物的合金元素添加到纯铂中来制造铂合金锭; 通过进行内部氧化热处理工序来进行制造的铸锭; 铂合金锭置于等离子体装置的内部; 等离子体装置的内部被减压,并且通过形成等离子体来制造铂合金粉末; 通过进行热处理来进行铂合金粉末的制造,制造高纯度的铂合金粉末。
    • 44. 发明公开
    • 용선을 이용한 비정질 합금의 제조 방법
    • 使用液体铁制造非晶态合金的方法
    • KR1020100078316A
    • 2010-07-08
    • KR1020080136548
    • 2008-12-30
    • 주식회사 포스코
    • 이상호최승덕이승훈
    • C22C1/00
    • C22C45/02B22F3/00C22C1/02C22C33/003
    • PURPOSE: A method for manufacturing amorphous alloy using molten metal is provided to manufacture amorphous alloy with high quality without a following steelmaking process by controlling the composition of alloying element. CONSTITUTION: A hot metal is offered(S100). Alloy materials are in thrown in the hot metal. The hot metal is solidified(S120). A step of controlling the carbon concentration of the hot metal is performed between an alloy material throwing step and a carbon concentration controlling step. The gas or the solid oxide is recorded in the hot metal at the carbon concentration controlling step. The gas is selected in one from the group consisting of pure oxygen, oxygen and air. The solid oxide comprises the ferric oxide or the manganese oxide.
    • 目的:提供使用熔融金属制造非晶态合金的方法,通过控制合金元素的组成,通过不经过炼钢的方法制造高质量的非晶态合金。 构成:提供热金属(S100)。 合金材料被扔在铁水中。 铁水固化(S120)。 在合金材料投入步骤和碳浓度控制步骤之间进行控制热金属的碳浓度的步骤。 在碳浓度控制步骤中将气体或固体氧化物记录在热金属中。 气体选自纯氧,氧气和空气中的气体。 固体氧化物包含氧化铁或氧化锰。
    • 45. 发明公开
    • 레이저와 프레스물을 이용하는 합금화장치
    • 使用激光和压力的合金装置
    • KR1020090089666A
    • 2009-08-24
    • KR1020080014959
    • 2008-02-19
    • 자동차부품연구원
    • 이명호송종호정우영
    • B23K25/00C22C1/00
    • An alloying device using a laser and a press is provided to prevent temperature rise due to pressure by arranging a cooling water line around a press unit and making an electromagnetic field around a base material. An alloying device using a laser and a press includes a press unit(120) and a laser beam(130). The press unit adds pressure to a coating layer(110) of a base material. The press unit is operated by a motor or a pneumatic cylinder(122). The press unit is made of one of quartz, glass, or crystal glass. The laser beam is used as a heating source. The laser beam passes through the press unit, and alloys the base material. A chamber(140) is formed between the press unit and the base material. Fluid or inert gas is filled in the chamber.
    • 提供了一种使用激光和压力机的合金装置,通过在压制单元周围布置冷却水线并在基材周围形成电磁场来防止由于压力引起的温度上升。 使用激光和压制的合金化装置包括压制单元(120)和激光束(130)。 压制单元向基材的涂层(110)增加压力。 按压单元由电动机或气动缸(122)操作。 压制单元由石英,玻璃或水晶玻璃之一制成。 激光束用作加热源。 激光束通过压制单元,并将基材合金化。 在压榨单元和基材之间形成有室140。 流体或惰性气体填充在腔室中。
    • 46. 发明公开
    • 가공성이 우수한 Cu-Sn-Ni-Si합금 제조방법
    • 制备铜镍硅合金的方法,具有良好的工作性能
    • KR1020090067425A
    • 2009-06-25
    • KR1020070135097
    • 2007-12-21
    • 주식회사 포스코재단법인 포항산업과학연구원
    • 백경호이언식
    • B22F3/115B22D23/00C22C1/00C22C9/02
    • A manufacturing method of Cu-Sn-Ni-Si alloy having excellent workability is provided to improve a plastic processing rate and workability by retracting crack production in post-processing by making uniform fine structure. A manufacturing method of Cu-Sn-Ni-Si alloy having excellent workability comprises the followings: making molten metal containing 8~16wt% of Sn, 0.5~3wt% of Ni, 0.1~0.7wt% of Si and the remnant Cu; supplying the molten metal into a tundish(20); aping the molten metal into a molten metal outlet(21); spraying inert gas to the molten metal with a gas atomizer(40); converting the molten metal into a droplet(50) of corpuscles; and forming a billet by laminating evenly the droplet on a substrate.
    • 提供了具有优异的可加工性的Cu-Sn-Ni-Si合金的制造方法,以通过使均匀的精细结构回缩后处理中的裂纹产生来提高塑化加工速率和加工性。 一种具有优异加工性能的Cu-Sn-Ni-Si合金的制造方法,其特征在于:制备含有8〜16重量%Sn,0.5〜3重量%Ni,0.1〜0.7重量%Si和残余Cu的熔融金属; 将熔融金属供应到中间包(20)中; 将熔融金属浇注到熔融金属出口(21)中; 用气体雾化器(40)向惰性气体喷射惰性气体; 将熔融金属转化成小块(50); 以及通过将液滴均匀地层压在基板上来形成坯料。
    • 47. 发明公开
    • 금속 합금의 자기 펄스-보조 주조 & 그에 의해 제조된금속 합금
    • 金属合金和金属合金的磁性脉冲辅助铸件
    • KR1020080051106A
    • 2008-06-10
    • KR1020070125186
    • 2007-12-04
    • 헤래우스 인코포레이티드
    • 지아니압델로우에햅
    • B22D27/02H01F1/04B22D21/00C22C1/00
    • C22C19/07B22D27/02C22C38/00C22F3/02H01F1/147Y10T428/12465
    • An improved method for manufacturing improved sputtering target materials with desirable microstructures, and improved chemical homogeneity and ductility, is provided, and improved metal alloys useful in the formation of deposition sources, e.g., high pass-through flux(PTF) sputtering targets comprising ferromagnetic metal alloy materials, utilized during the production of magnetic and magneto-optical(MO) recording media are provided. As a method of forming a cast ferromagnetic metal alloy comprising applying a pulsed or vibrating magnetic field to a molten ferromagnetic metal alloy material during solidification of the molten ferromagnetic metal alloy material, a method for producing the cast ferromagnetic metal alloy is characterized in that the molten ferromagnetic metal alloy material is selected from the group consisting of: Co-based(CoX) alloys, where X is at least one element selected from the group consisting of Au, B, Ce, Cr, Cu, Dy, Er, Fe, Gd, Hf, Ho, La, Lu, Ni, Nb, Nd, P, Pt, Sc, Sm, Ta, Tb, Y, Zn, and Zr; Fe-based(FeX) alloys, where X is at least one element selected from the group consisting of Au, B, Ce, Co, Cr, Cu, Dy, Er, Gd, La, Lu, Nb, Nd, P, Pr, Pt, Sc, Sm, Ta, Tb, Th, Y, and Zr; and Ni-based(NiX) alloys, where X is at least one element selected from the group consisting of Au, B, Ce, Co, Cr, Cu, Dy, Er, Fe, Gd, Hf, La, Nd, Ni, P, Pt, Pr, Sc, Y, Yb, and Zr. The method comprises the steps of: (a) providing the molten ferromagnetic metal alloy material; (b) generating a pulsed or vibrating magnetic field, by using DC or AC power, within an inner space of a casting mold through a magnetic core surrounding the casting mold; (c) at least partially filling the casting mold with the molten metal alloy material; (d) applying the pulsed or vibrating magnetic field to the molten metal alloy material while solidifying the molten metal alloy material to mix a molten portion of a solidifying body of the metal alloy material; and (e) continuously applying the pulsed or vibrating magnetic field to the solidifying body until the solidification is completed.
    • 提供了一种用于制造具有所需微结构的改进的溅射靶材料和改进的化学均匀性和延展性的改进方法,以及用于形成沉积源的改进的金属合金,例如包含铁磁性金属的高通过通量(PTF)溅射靶 提供了在制造磁和磁光(MO)记录介质期间使用的合金材料。 作为形成铸造铁磁性金属合金的方法,包括在熔融铁磁性金属合金材料固化期间将熔融的铁磁性金属合金材料施加脉冲或振动的磁场,其特征在于,熔融的 强磁性金属合金材料选自:Co(CoX)合金,其中X是选自Au,B,Ce,Cr,Cu,Dy,Er,Fe,Gd中的至少一种元素 ,Hf,Ho,La,Lu,Ni,Nb,Nd,P,Pt,Sc,Sm,Ta,Tb,Y,Zn和Zr; Fe(FeX)合金,其中X是选自Au,B,Ce,Co,Cr,Cu,Dy,Er,Gd,La,Lu,Nb,Nd,P,Pr中的至少一种元素 ,Pt,Sc,Sm,Ta,Tb,Th,Y和Zr; 和Ni基(NiX)合金,其中X是选自Au,B,Ce,Co,Cr,Cu,Dy,Er,Fe,Gd,Hf,La,Nd,Ni中的至少一种元素, P,Pt,Pr,Sc,Y,Yb和Zr。 该方法包括以下步骤:(a)提供熔融铁磁金属合金材料; (b)通过使用DC或AC电力在铸模的内部空间内通过围绕铸模的磁芯产生脉冲或振动的磁场; (c)用熔融金属合金材料至少部分地填充铸模; (d)在熔融金属合金材料固化以混合金属合金材料的凝固体的熔融部分的同时,将脉冲或振动的磁场施加到熔融金属合金材料; 和(e)将脉冲或振动的磁场连续地施加到凝固体直到固化完成。
    • 50. 发明公开
    • 탄소기 금속 복합재료 제조방법 및 그 물품
    • 制造具有碳组合的金属复合材料的方法及其制造的制品
    • KR1020010094319A
    • 2001-10-31
    • KR1020000017924
    • 2000-04-06
    • 주식회사 바이오캠
    • 조수래
    • C22C1/00C22C1/10
    • PURPOSE: A method for manufacturing a metallic composite material having carbon groups and an article manufactured using the same are provided in which the composite material is applied to varieties of advanced materials by forming a light thin plate shaped composite material in a simple manufacturing process, and productivity is improved by producing a performance improved composite material at a low cost. CONSTITUTION: The method for manufacturing a metallic composite material having carbon groups and the article manufactured using the same comprise a metal weighing step of setting the amount of a metal injected into a raw material; a fusion step of fusing the metal in the temperature range adjacent to a fusion point of 550 to 710 deg.C; a carbon impregnation step of impregnating carbon into the metal by injecting a carbon black into the fused metallic material so that a weight of the metallic material is set to about 25 to 35% out of the total weight; a heat pressing and forming step of forming the carbon impregnated metallic material by heating the metallic material to a temperature of 590 to 720 deg.C; a cooling step of cooling the formed composite material at an ordinary temperature; a demolding step of removing the cooled composite material from a mold; and a finishing step of inspecting a degree of completion of the panel after processing the demolded composite material into a panel.
    • 目的:提供一种制造具有碳基的金属复合材料的方法和使用其制造的制品,其中通过在简单的制造工艺中形成轻薄板状复合材料,将复合材料应用于各种先进材料,以及 通过以低成本生产性能改进的复合材料来提高生产率。 构成:具有碳基的金属复合材料的制造方法和使用其制造的制品包括设定注入原料的金属量的金属称重步骤; 熔融步骤,在550〜710℃的熔点附近的温度范围内熔融金属; 碳浸渍步骤,通过将炭黑注入熔融金属材料中将碳浸入金属中,使得金属材料的重量在总重量中设定为约25至35%; 通过将金属材料加热到590〜720℃的温度来形成碳浸渍金属材料的热压成形工序; 在常温下冷却所形成的复合材料的冷却步骤; 从模具去除冷却的复合材料的脱模步骤; 以及在将脱模的复合材料加工成面板之后检查面板的完成程度的整理步骤。