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    • 2. 发明授权
    • Ni-base alloy, high-temperature member for steam turbine and welded rotor for turbine using the same, and method for manufacturing the same
    • 镍基合金,蒸汽轮机的高温部件和使用其的涡轮机的焊接转子及其制造方法
    • US08883072B2
    • 2014-11-11
    • US12551884
    • 2009-09-01
    • Jun SatoShinya ImanoHiroyuki Doi
    • Jun SatoShinya ImanoHiroyuki Doi
    • C21D1/18F01D5/06B23K35/30C22F1/10B23K35/00C22C19/05C22C38/00C22C30/00
    • C22C19/055B23K35/004B23K35/304B23K2101/001C22C19/056C22F1/10F01D5/063Y02T50/671
    • The present invention provides, in a γ′ phase precipitation strengthening type Ni-base alloy, an alloy excellent in heat treatment capability and weldability and suitable for joint with a ferritic steel. Further, the present invention provides a welded turbine rotor having the strength, ductility, and toughness simultaneously over the whole welded structure when a precipitation strengthening type Ni-base alloy having a heatproof temperature of 675° C. or higher is joined to a ferritic steel.A Ni-base alloy according to the present invention contains cobalt, chromium, aluminum, carbon, boron, and at least either tungsten or molybdenum with the remainder being nickel and inevitable impurities, having an alloy composition including 12 to 25 percent by mass of Co, 10 to 18 percent by mass of Cr, 2.0 to 3.6 percent by mass of Al, 0.01 to 0.15 percent by mass of C, 0.001 to 0.03 percent by mass of B, the total amount of tungsten and molybdenum being 5.0 to 10 percent by mass.A welded turbine rotor is structured by joining or building up by welding a second Ni-base alloy to a first Ni-base alloy that a γ′ phase solid solution temperature thereof is 900° C. or higher and a creep fracture strength at 675° C. is 100 MPa or more, and further welding a ferritic steel to the second Ni-base alloy. The second Ni-base alloy is a γ′ phase (Ni3Al) precipitation strengthening type Ni-base alloy, a γ′ phase solid solution temperature thereof is 850° C. or lower.
    • 本发明在γ-相析出强化型Ni基合金中提供了热处理能力和焊接性优异的合金,适用于与铁素体钢接合的合金。 此外,本发明提供了一种在整个焊接结构中具有强度,延展性和韧性的焊接式涡轮转子,当耐热温度为675℃以上的析出强化型Ni基合金与铁素体钢 。 根据本发明的镍基合金包含钴,铬,铝,碳,硼,以及至少钨或钼,其余为镍和不可避免的杂质,其合金组成包含12〜25质量%的Co ,10〜18质量%的Cr,2.0〜3.6质量%的Al,0.01〜0.15质量%的C,0.001〜0.03质量%的B,钨和钼的总量为5.0〜10质量% 质量 焊接的涡轮转子通过将第二Ni基合金焊接到γ'相固相温度为900℃以上的第一Ni基合金和675°的蠕变断裂强度下, C为100MPa以上,进一步将铁素体钢焊接到第二Ni基合金。 第二Ni基合金是γ'相(Ni3Al)析出强化型Ni基合金,γ'相固溶温度为850℃以下。
    • 8. 发明申请
    • NI-BASE ALLOY, HIGH-TEMPERATURE MEMBER FOR STEAM TURBINE AND WELDED ROTOR FOR TURBINE USING THE SAME, AND METHOD FOR MANUFACTURING THE SAME
    • NI-BASE合金,用于蒸汽涡轮机的高温部件和使用该涡轮机的涡轮机的焊接转子及其制造方法
    • US20100059146A1
    • 2010-03-11
    • US12551884
    • 2009-09-01
    • Jun SatoShinya ImanoHiroyuki Doi
    • Jun SatoShinya ImanoHiroyuki Doi
    • C21D1/18C22C19/05C22C38/00C22C30/00
    • C22C19/055B23K35/004B23K35/304B23K2101/001C22C19/056C22F1/10F01D5/063Y02T50/671
    • The present invention provides, in a γ′ phase precipitation strengthening type Ni-base alloy, an alloy excellent in heat treatment capability and weldability and suitable for joint with a ferritic steel. Further, the present invention provides a welded turbine rotor having the strength, ductility, and toughness simultaneously over the whole welded structure when a precipitation strengthening type Ni-base alloy having a heatproof temperature of 675° C. or higher is joined to a ferritic steel.A Ni-base alloy according to the present invention contains cobalt, chromium, aluminum, carbon, boron, and at least either tungsten or molybdenum with the remainder being nickel and inevitable impurities, having an alloy composition including 12 to 25 percent by mass of Co, 10 to 18 percent by mass of Cr, 2.0 to 3.6 percent by mass of Al, 0.01 to 0.15 percent by mass of C, 0.001 to 0.03 percent by mass of B, the total amount of tungsten and molybdenum being 5.0 to 10 percent by mass.A welded turbine rotor is structured by joining or building up by welding a second Ni-base alloy to a first Ni-base alloy that a γ′ phase solid solution temperature thereof is 900° C. or higher and a creep fracture strength at 675° C. is 100 MPa or more, and further welding a ferritic steel to the second Ni-base alloy. The second Ni-base alloy is a γ′ phase (Ni3Al) precipitation strengthening type Ni-base alloy, a γ′ phase solid solution temperature thereof is 850° C. or lower.
    • 本发明在γ-相析出强化型Ni基合金中提供了热处理能力和焊接性优异的合金,适用于与铁素体钢接合的合金。 此外,本发明提供了一种在整个焊接结构中具有强度,延展性和韧性的焊接式涡轮转子,当耐热温度为675℃以上的析出强化型Ni基合金与铁素体钢 。 根据本发明的镍基合金包含钴,铬,铝,碳,硼,以及至少钨或钼,其余为镍和不可避免的杂质,其合金组成包含12〜25质量%的Co ,10〜18质量%的Cr,2.0〜3.6质量%的Al,0.01〜0.15质量%的C,0.001〜0.03质量%的B,钨和钼的总量为5.0〜10质量% 质量 焊接的涡轮转子通过将第二Ni基合金焊接到γ'相固相温度为900℃以上的第一Ni基合金和675°的蠕变断裂强度下, C为100MPa以上,进一步将铁素体钢焊接到第二Ni基合金。 第二Ni基合金是γ'相(Ni3Al)析出强化型Ni基合金,γ'相固溶温度为850℃以下。
    • 9. 发明申请
    • Turbine Rotor
    • 涡轮转子
    • US20100028155A1
    • 2010-02-04
    • US12509537
    • 2009-07-27
    • Eiji NishiokaMasahiko AraiRyusuke HirutaHiroyuki Doi
    • Eiji NishiokaMasahiko AraiRyusuke HirutaHiroyuki Doi
    • F01D5/14
    • F01D5/063B23K31/02B23K33/004F05D2230/232
    • An object of the present invention is to provide a turbine rotor with high reliability of strength. The turbine rotor includes two rotors which are connected at the butted portions of the rotors via a weld without forming penetration beads. Specifically, the turbine rotor includes a rotor for low pressure, a rotor for high pressure, and a center hole formed at a center portion of the turbine rotor. The rotors for low pressure and for high pressure are integrated together into a steam turbine rotor by welding respective ends of the rotors to each other. The respective ends of the rotors are in contact with each other via at least two contact faces in a radial direction and an axial direction of the turbine rotor. At least parts of the respective ends are welded together.
    • 本发明的目的是提供一种高可靠性的涡轮转子。 涡轮转子包括两个转子,其通过焊接在转子的对接部分处连接而不形成穿透珠。 具体而言,涡轮转子包括低压用转子,高压用转子和形成在涡轮转子的中心部的中心孔。 通过将转子的相应端部彼此焊接,用于低压和高压的转子被集成在一起成为蒸汽轮机转子。 转子的相应端部经由涡轮机转子的径向方向和轴向方向上的至少两个接触面彼此接触。 各端的至少部分焊接在一起。