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    • 2. 发明授权
    • Method of manufacturing thin metal wire
    • 薄金属丝的制造方法
    • US4614221A
    • 1986-09-30
    • US426443
    • 1982-09-29
    • Tsuyoshi MasumotoTatsuo HamashimaMichiaki Hagiwara
    • Tsuyoshi MasumotoTatsuo HamashimaMichiaki Hagiwara
    • B22D11/00
    • B22D11/005
    • A method of producing a thin metal wire having a circular cross section is disclosed. The wire is produced by providing a molten metal within an extruding device having a nozzle therein. A strip of liquid coolant in motion at a speed of 200 m/min or more is then provided. The molten metal is extruded into the strip of liquid coolant in order to cool and solidify the metal and form the thin metal wire. A high quality thin metal wire is obtained by precisely adjusting the speed of the strip of liquid coolant relative to the speed of the extruded molten metal as well as the angle at which the molten metal is extruded into the liquid coolant strip. The method is capable of economically and continuously producing a high quality thin metal wire on a commercial scale. The method is effective in directly producing a thin metal wire having an amorphous, a nonequilibrium crystalline, or microcrystalline structure.
    • 公开了一种制造具有圆形横截面的细金属丝的方法。 电线通过在其内具有喷嘴的挤出装置内提供熔融金属来制造。 然后提供以200m / min或更高速度运动的液体冷却剂条。 将熔融金属挤出到液体冷却剂条中,以冷却和固化金属并形成细金属丝。 通过精确调节液体冷却剂条相对于挤出的熔融金属的速度以及将熔融金属挤出到液体冷却剂条中的角度的精度来获得高品质的细金属丝。 该方法能够在商业规模上经济地且连续地生产高品质的细金属丝。 该方法有效地直接生产具有无定形,非平衡结晶或微晶结构的细金属丝。
    • 3. 发明授权
    • Amorphous metal filaments and process for producing the same
    • 无定形金属丝及其制造方法
    • US4523626A
    • 1985-06-18
    • US597576
    • 1984-04-09
    • Tsuyoshi MasumotoAkihisa InoueMichiaki Hagiwara
    • Tsuyoshi MasumotoAkihisa InoueMichiaki Hagiwara
    • B22D11/00B22D11/06C22C45/02H01F1/153
    • H01F1/15391B22D11/005B22D11/062C22C45/02Y10T428/12431
    • Amorphous metal filaments having a substantially circular cross-section comprising an alloy containing Fe as a main component, and a process for producing such amorphous metal filaments, are described; the process comprises jetting a molten alloy having amorphism forming ability into a revolving body containing a cooling liquid from a spinning nozzle to form a solidified filament by cooling, and continuously winding the filament on the inner wall of said revolving body by means of the centrifugal force of said revolving body, wherein the circumferential rate of revolution of said revolving body is equal to or higher than the rate of jetting of molten metal from the spinning nozzle. These metal filaments have good corrosion resistance, toughness, and high magnetic permeability and are very useful in various industrial applications, such as electric and electronic parts, materials for reinforcement, and fiber materials.
    • 描述了具有包含含Fe作为主要成分的合金的基本圆形横截面的无定形金属细丝及其制造方法。 该方法包括将具有非晶形成能力的熔融合金喷射到包含来自纺丝喷嘴的冷却液的旋转体中,通过冷却形成固化丝,并通过离心力将丝连续卷绕在旋转体的内壁上 所述旋转体的周向旋转速度等于或高于从所述纺丝喷嘴喷射熔融金属的速度。 这些金属丝具有良好的耐腐蚀性,韧性和高磁导率,并且在各种工业应用中非常有用,例如电气和电子部件,加强材料和纤维材料。
    • 4. 发明授权
    • Amorphous iron-based alloy excelling in fatigue property
    • 无定形铁基合金具有优异的疲劳性能
    • US4473401A
    • 1984-09-25
    • US500706
    • 1983-06-03
    • Tsuyoshi MasumotoAkihisa InoueMichiaki Hagiwara
    • Tsuyoshi MasumotoAkihisa InoueMichiaki Hagiwara
    • C22C45/02H01F1/153C22C38/32
    • C22C45/02H01F1/15308
    • An amorphous iron-based alloy which comprises not more than 25 atom % of Si and 2.5 to 25 atom % of B (providing that the sum of Si and B falls in the range of 15 to 35 atom %), 1.5 to 20 atom % of Cr, 0.2 to 10 atom % of either or both of P and C, and the balance to make up 100 atom % substantially of Fe excels in fatigue property. An amorphous iron-based alloy which contains not more than 30 atom % of at least one element selected from the group consisting of Co, Ni, Ta, Nb, Mo, W, V, Mn, Ti, Al, Cu and Zr in addition to the components making up the aforementioned alloy excels in amorphous texture of forming ability and fatigue property. Since these alloys are also excellent in tensile strength at fracture, thermal resistance, corrosionproofness, and electromagnetic property, they prove highly useful as electromagnetic materials and as reinforcements in various industrial materials.
    • 含有不超过25原子%的Si和2.5〜25原子%的B(提供Si和B的总和在15〜35原子%的范围内)的非晶铁系合金为1.5〜20原子% 的Cr,0.2〜10原子%的P和C中的任一种或两者,并且构成基本上为Fe的100原子%的余量在疲劳特性方面优异。 含有不少于30原子%的选自Co,Ni,Ta,Nb,Mo,W,V,Mn,Ti,Al,Cu和Zr中的至少一种元素的非晶铁基合金,另外 构成上述合金的成分在成形能力和疲劳性能的无定形织构中优异。 由于这些合金在断裂时的拉伸强度,耐热性,耐腐蚀性和电磁特性也优异,因此作为电磁材料和各种工业材料中的增强剂是非常有用的。
    • 6. 发明授权
    • Fine amorphous metal wire
    • 精细非晶金属丝
    • US4806179A
    • 1989-02-21
    • US71823
    • 1987-07-10
    • Michiaki HagiwaraAkira MenjiuNomura KohachiKataoka MasaruYamada YoshinaoSasaki Miyuri
    • Michiaki HagiwaraAkira MenjiuNomura KohachiKataoka MasaruYamada YoshinaoSasaki Miyuri
    • C22C45/00C22C19/07
    • C22C45/008
    • A fine amorphous metal wire with a circular cross section that has improved toughness and a composition represented by the formula:Fe.sub.a Co.sub.b Cr.sub.c Si.sub.x Bywhereina+b is from about 53 to 80 atomic %;c is from about 3 to 20 atomic %;x is from about 5 to 15 atomic %; andy is from about 5 to 15 atomic %;provided that ##EQU1## is in a range from about c.times.0.025+0.25 to c.times.0.012+0.73; and x+y is from about 17 to 27 atomic %. Having improved toughness, this fine amorphous metal wire can be drawn or otherwise worked efficiently on an industrial scale with minimum breakage. In addition, this wire has good fatigue characteristics and high corrosion resistance, as well as high tensile breaking strengths, high heat resistance and superior electromagnetic performance. Therefore, the wire is very useful in a broad range of applications including a variety of mechanical members, industrial reinforcements, and electromagnetic materials.
    • 具有改善的韧性的圆形横截面的细非晶金属线和由下式表示的组成:FeaCobCrcSixBy其中a + b为约53至80原子%; c为约3至20原子%; x为约5至15原子%; y为约5至15原子%; 条件是在从大约cx0.025 + 0.25到cx0.012 + 0.73的范围内; x + y为约17〜27原子%。 具有改善的韧性,可以以最小的破损在工业规模上拉伸或以其他方式有效地加工这种细非晶金属丝。 此外,该线具有良好的疲劳特性和高耐腐蚀性,以及高拉伸断裂强度,高耐热性和优异的电磁性能。 因此,电线在广泛的应用中非常有用,包括各种机械构件,工业增强件和电磁材料。