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    • 1. 发明专利
    • Method for producing high density iron-based compacted body and high strength and high density iron-based sintered body
    • 生产高密度铁基压实体和高强度和高密度铁基烧结体的方法
    • JP2007138273A
    • 2007-06-07
    • JP2005337197
    • 2005-11-22
    • Jfe Steel KkJfeスチール株式会社
    • UENOSONO SATOSHINAKAMURA NAOMICHI
    • C22C33/02B22F3/10B22F3/24C22C38/00C22C38/46
    • PROBLEM TO BE SOLVED: To provide a method for stably producing an iron-based compacted body having a high density and thus an iron-based sintered body having a high strength and a high density.
      SOLUTION: The method comprises pre-compacting an iron-based mixed powder prepared from an iron-based metal powder and a graphite powder, or further, a lubricant, pre-sintering the resulting pre-compacted body at a temperature of higher than 1000°C and not higher than 1300°C in a nonoxidizing atmosphere under the partial pressure of nitrogen satisfying ≤30 kPa, to prepare an iron-based sintered preform having a composition containing 0.10 to 0.50 mass% of C, 0.3 mass% or less of O and 0.010 mass% or less of N, and the balance Fe with inevitable impurities and having a density of 7.2 Mg/m
      3 or more, and then subjecting the preform for compacting high density iron-based powder to a high velocity compaction at a ram velocity of ≥2 m/s.
      COPYRIGHT: (C)2007,JPO&INPIT
    • 要解决的问题:提供一种稳定地制造高密度的铁基压实体的方法,从而提供具有高强度和高密度的铁基烧结体。 解决方案:该方法包括预先压制由铁基金属粉末和石墨粉末制备的铁基混合粉末,或进一步地,在较高温度下预烧结所得预压实体的润滑剂 在非氧化性气氛下,在满足≤30kPa的氮气的条件下,在1000℃以上1300℃以下,制备含有0.10〜0.50质量%的C,0.3质量%的组成的铁基烧结预成型体,或 较小的O和0.010质量%以下的N,余量为Fe与不可避免的杂质,密度为7.2Mg / m 3以上,然后使该预成型件压实高密度铁 - 在高于2m / s的冲击速度下进行高速压实。 版权所有(C)2007,JPO&INPIT
    • 3. 发明专利
    • Method for manufacturing metal powder for dust core
    • 制造金属粉末的方法
    • JP2005154863A
    • 2005-06-16
    • JP2003397332
    • 2003-11-27
    • Jfe Steel KkJfeスチール株式会社
    • MAETANI TOSHIOUEDA MASATERUNAKAMURA NAOMICHI
    • B22F1/02
    • PROBLEM TO BE SOLVED: To provide an advantageous method for manufacturing a metal powder for a dust core by which not only the efficiency of coating treatment for a powder can be raised but also magnetic properties can be improved to a greater extent when the metal powder is used for a dust core by improving green properties.
      SOLUTION: In this method, a ferromagnetic metal powder 2 is held in a vessel 1, an agitator blade 3 set in the vessel is rotated at ≥1.5 m/s rotational speed at the end part, spray gas 6 performing the spraying of a coating solution is made to function also as gas for fluidization, and by blowing the spray gas 6 from above the ferromagnetic metal powder at a rate of ≥3.0 m/s into the ferromagnetic metal powder while agitating and fluidizing the metal powder, the ferromagnetic metal powder is heated and held at 60 to 110°C. In this way, the coating solution sprayed by the spray gas onto the surface of the ferromagnetic metal powder is dried to form a coating layer.
      COPYRIGHT: (C)2005,JPO&NCIPI
    • 要解决的问题:为了提供一种制造用于粉芯的金属粉末的有利方法,其不仅可以提高粉末涂层处理的效率,而且可以在更大程度上提高磁性能 金属粉末通过改善绿色特性用于粉尘芯。 解决方案:在这种方法中,将铁磁性金属粉末2保持在容器1中,设置在容器中的搅拌器叶片3在端部处以≥1.5m/ s的转速旋转,进行喷雾的喷雾6 使涂层溶液也用作用于流化的气体,并且通过在铁粉金属粉末的上方以≥3.0m/ s的速度将喷雾气体6吹入强磁性金属粉末中,同时搅拌和流化金属粉末, 将铁磁性金属粉末加热并保持在60〜110℃。 以这种方式,将由喷雾气体喷射的涂覆溶液干燥到强磁性金属粉末的表面上以形成涂层。 版权所有(C)2005,JPO&NCIPI
    • 5. 发明专利
    • Iron base powder and dust core using the same, and method of manufacturing iron base powder
    • 铁基粉末和使用其的粉末核心,以及制造铁基粉末的方法
    • JP2003303711A
    • 2003-10-24
    • JP2002065515
    • 2002-03-11
    • Jfe Steel KkJfeスチール株式会社
    • UEDA MASATERUNAKAMURA NAOMICHI
    • B22F1/02H01F1/24H01F1/26H01F41/02H01F41/16
    • H01F1/26H01F1/24H01F41/0246H01F41/16Y10T428/2991Y10T428/2993Y10T428/2995
    • PROBLEM TO BE SOLVED: To provide iron base powder having a heat-resistant insulating film and a dust core. SOLUTION: A coating material containing a silicon resin and pigment is added to powder as a raw material having iron as a main component, and the material and powder are stirred and mixed. After that, drying treatment is performed to form a film containing the silicon resin and pigment on the surface of the iron base powder. The ratio of the silicon resin content to the pigment content in the film is preferably 0.01 or higher and under 4.0 for mass ratio. The pigment preferably has more than one or two kinds among metal oxide, metal nitride, metal carbide, mineral and glass. The coating material may be sprayed onto the iron base powder in a flowing state. As the underlayer of the film, the film containing more than one or two kinds among a Si compound, Ti compound, Zr compound, P compound and Cr compound may be formed. COPYRIGHT: (C)2004,JPO
    • 要解决的问题:提供具有耐热绝缘膜和防尘芯的铁基粉末。 解决方案:将含有硅树脂和颜料的涂料作为以铁为主要成分的原料添加到粉末中,并搅拌混合该材料和粉末。 之后,进行干燥处理以在铁基粉末的表面上形成含有硅树脂和颜料的膜。 硅树脂含量与膜中颜料含量的比例优选为0.01以上,质量比为4.0以下。 颜料优选在金属氧化物,金属氮化物,金属碳化物,矿物和玻璃中具有多于一种或两种。 涂料可以以流动状态喷涂到铁基粉末上。 作为膜的底层,可以形成Si化合物,Ti化合物,Zr化合物,P化合物和Cr化合物中含有多于一种或两种的膜。 版权所有(C)2004,JPO
    • 7. 发明专利
    • Alloy steel powder for powder metallurgy
    • 用于粉末冶金的合金钢粉
    • JP2005330573A
    • 2005-12-02
    • JP2004230629
    • 2004-08-06
    • Jfe Steel KkJfeスチール株式会社
    • UNAMI SHIGERUOZAKI YUKIKOUENOSONO SATOSHINAKAMURA NAOMICHI
    • B22F1/02C22C38/00C22C38/46
    • PROBLEM TO BE SOLVED: To provide an alloy steel powder for powder metallurgy capable of increasing the bearing fatigue strength of a sintered compact while highly maintaining its density.
      SOLUTION: The alloy steel powder for powder metallurgy includes an iron-based powder containing about 0.5 mass percent or less of Mn as a prealloyed element and 0.2 to 1.5 mass percent of Mo as a prealloyed element; and a Mo-containing alloy powder bonded on the surface of the iron-based powder. In the alloy steel powder for powder metallurgy, a Mo average content [Mo]
      T (mass%) satisfies formula 0.05≤[Mo]
      T -[Mo]
      p ≤0.8, wherein the content [Mo]
      P is the above prealloyed Mo content (mass percent) in the iron-based powder. Thus the bearing fatigue strength of a sintered compact obtained from the alloy steel powder can be increased while increasing its density.
      COPYRIGHT: (C)2006,JPO&NCIPI
    • 要解决的问题:提供一种能够在高度保持其密度的同时提高烧结体的轴承疲劳强度的粉末冶金用合金钢粉末。 解决方案:用于粉末冶金的合金钢粉末包括含有约0.5质量%以下的Mn作为预合金元素的铁基粉末和作为预合金元素的Mo为0.2〜1.5质量%的铁基粉末; 以及粘结在铁基粉末的表面上的含Mo合金粉末。 在用于粉末冶金的合金钢粉末中,Mo平均含量[Mo] T (质量%)满足公式0.05≤[Mo] T - [Mo] p ≤0.8,其中含量[Mo]≤P是铁基粉末中上述预合金化的Mo含量(质量百分比)。 因此,可以增加由合金钢粉末获得的烧结体的轴承疲劳强度,同时增加其密度。 版权所有(C)2006,JPO&NCIPI