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    • 2. 发明公开
    • Cemented carbide articles and master alloy composition
    • 硬质合金制品和母合金成分
    • EP0763605A3
    • 1997-08-06
    • EP96305884.7
    • 1996-08-12
    • NANODYNE INCORPORATEDRUTGERS, THE STATE UNIVERSITY OF NEW JERSEY
    • McCandish, Larry E.Sadangi, Rajendra K.
    • C22C29/06C22C29/08
    • C22C29/08B22F9/026B22F2003/1032C22C1/051C22C29/067
    • A low melting point alloy is used to sinter metal carbide particles. The alloy is a eutectic-like alloy formed from a binding metal such as iron, cobalt or nickel, in combination with vanadium and chromium. The alloy is preferably formed by forming two separate alloys and blending these together. The first alloy is formed by spray drying together a solution of a binding metal salt such as a cobalt salt with a solution of a chromium salt. The formed particles are then carburized to form a cobalt-chromium-carbon alloy. A separate vanadium alloy is formed in the same manner. The two are combined to establish the amount of chromium and vanadium desired, and this, in turn, is used to sinter metal carbide parts. This permits sintering of the metal carbide parts at temperatures less than 1250° C and in turn significantly inhibits grain grown without a significant decrease in toughness. It is particularly adapted to form carbide products wherein the carbide grain size is as low as 120 nanometers.
    • 使用低熔点合金来烧结金属碳化物颗粒。 该合金是由结合金属例如铁,钴或镍与钒和铬结合形成的共晶状合金。 该合金优选通过形成两种单独的合金并将它们混合在一起而形成。 第一合金通过将结合金属盐例如钴盐的溶液与铬盐溶液一起喷雾干燥而形成。 然后将形成的颗粒渗碳形成钴 - 铬 - 碳合金。 单独的钒合金以相同的方式形成。 将两者结合起来以确定所需的铬和钒的量,并且这又用于烧结金属碳化物部件。 这允许在低于1250℃的温度下金属碳化物部分的烧结,并且继而显着抑制晶粒生长而没有显着降低韧性。 它特别适用于形成碳化物产品,其中碳化物晶粒尺寸低至120纳米。
    • 9. 发明公开
    • Cemented carbide articles and master alloy composition
    • Zementierer Karbideartikel und Vorlegierungszusammensetzung
    • EP0763605A2
    • 1997-03-19
    • EP96305884.7
    • 1996-08-12
    • NANODYNE INCORPORATEDRUTGERS, THE STATE UNIVERSITY OF NEW JERSEY
    • McCandish, Larry E.Sadangi, Rajendra K.
    • C22C29/06C22C29/08
    • C22C29/08B22F9/026B22F2003/1032C22C1/051C22C29/067
    • A low melting point alloy is used to sinter metal carbide particles. The alloy is a eutectic-like alloy formed from a binding metal such as iron, cobalt or nickel, in combination with vanadium and chromium. The alloy is preferably formed by forming two separate alloys and blending these together. The first alloy is formed by spray drying together a solution of a binding metal salt such as a cobalt salt with a solution of a chromium salt. The formed particles are then carburized to form a cobalt-chromium-carbon alloy. A separate vanadium alloy is formed in the same manner. The two are combined to establish the amount of chromium and vanadium desired, and this, in turn, is used to sinter metal carbide parts. This permits sintering of the metal carbide parts at temperatures less than 1250° C and in turn significantly inhibits grain grown without a significant decrease in toughness. It is particularly adapted to form carbide products wherein the carbide grain size is as low as 120 nanometers.
    • 使用低熔点合金烧结金属碳化物颗粒。 该合金是由诸如铁,钴或镍的结合金属与钒和铬组合形成的共晶合金。 合金优选通过形成两个单独的合金并将它们混合在一起而形成。 通过将结合金属盐如钴盐的溶液与铬盐溶液一起喷雾干燥而形成第一合金。 然后将形成的颗粒渗碳以形成钴 - 铬 - 碳合金。 以相同的方式形成单独的钒合金。 两者结合以确定所需的铬和钒的量,并且这又用于烧结金属碳化物部件。 这允许金属碳化物部件在小于1250℃的温度下烧结,反过来又显着抑制晶粒生长而不显着降低韧性。 它特别适用于碳化物产品,其中碳化物晶粒尺寸低至120纳米。