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    • 4. 发明授权
    • Forming method and forming apparatus
    • 成型方法和成型装置
    • US06325965B1
    • 2001-12-04
    • US09431055
    • 1999-11-01
    • Ken MakitaMasao NoumiOsamu Yamashita
    • Ken MakitaMasao NoumiOsamu Yamashita
    • B22F100
    • A forming apparatus comprises a die formed with a through hole for provision of a cavity. A feeder box stored with a raw material powder having an average grain diameter of 0.1 &mgr;m˜500 &mgr;m is positioned above the cavity of the die, and the raw material powder is allowed to fall into the cavity while an inside of the feeder box and an inside of the cavity are each maintained at a pressure not greater than 10 kPa. During the supply of the raw material powder, the feeder box may be vibrated, or the supply may be made via a hose. The raw material powder may be a granulated powder or a rare-earth alloy powder. The raw material powder supplied in the cavity is pressed by an upper punch and a lower punch into a compact.
    • 一种成型设备包括一个形成有用于提供空腔的通孔的模具。 将存储有平均粒径为0.1μm〜500μm的原料粉末的送料盒定位在模具的空腔上方,并且允许原料粉末落入空腔中,同时进料盒内部和 腔体内部各自保持不大于10kPa的压力。 在供应原料粉末期间,供料盒可能振动,或者可以通过软管进行供应。 原料粉末可以是造粒粉末或稀土合金粉末。 在空腔中供给的原料粉末由上冲头和下冲头压入成型体。
    • 5. 发明授权
    • Method for producing high silicon steel, and silicon steel
    • 生产高硅钢,硅钢的方法
    • US06444049B1
    • 2002-09-03
    • US09463778
    • 2000-03-21
    • Osamu YamashitaKen MakitaMasao NoumiTsunekazu Saigo
    • Osamu YamashitaKen MakitaMasao NoumiTsunekazu Saigo
    • H01F114
    • C22C33/0278B22F3/162B22F2003/248B22F2998/00B22F2998/10B22F2999/00C21D8/1233C21D8/1272C22C33/0207C22C33/0257C22C38/02B22F3/10B22F3/18B22F3/26B22F3/16B22F3/24C23C10/00
    • Manufacture by rolling silicon steel having a silicon content of 3 wt % or greater and by rolling thin sendust sheet is implemented by powder metallurgical fabrication using powder as the starting raw material, and the average crystal grain size of the sheet-form sintered body or quick-cooled steel sheet is made 300 pm or less, whereby intra-grain slip transformation occurs after slip transformation in the grain boundaries, wherefore cold rolling is rendered possible. In addition, a mixture powder wherein pure iron powder and Fe—Si powder are mixed together in a prescribed proportion is fabricated with a powder metallurgy technique, and an iron-rich phase is caused to remain in the sintered body, whereby cold rolling is possible using the plastic transformation of those crystal grains. Furthermore, when a minute amount of a non-magnetic metal element such as Ti, V, or Al, etc., is added beforehand, it becomes easy to make the iron-rich phase and silicon-rich phase enter into solid solution during annealing, crystal grain growth can be promoted, the magnetic properties of the fabricated steel sheet become roughly equivalent to those of conventional ingot material, and silicon steel sheet exhibiting outstanding magnetic properties can be fabricated.
    • 通过轧制硅含量为3重量%以上的硅钢和通过轧制薄的硅铝箔制造通过使用粉末作为起始原料的粉末冶金制造和片状烧结体的平均晶粒尺寸或快速 冷却后的钢板的厚度为300μm以下,因此在晶界的滑移变形之后发生晶粒内的滑移变形,因此能够进行冷轧。 此外,用粉末冶金技术制造纯铁粉和Fe-Si粉末以规定比例混合在一起的混合粉末,并且使富铁相残留在烧结体中,由此可以进行冷轧 使用这些晶粒的塑性转变。 此外,当预先添加微量的诸如Ti,V或Al等非磁性金属元素时,易于使富铁相和富硅相在退火期间进入固溶体 可以促进晶粒生长,所制造的钢板的磁性能变得与常规锭料的磁特性大致相同,并且可以制造出具有优异磁特性的硅钢片。