Cobalt-based high-temperature alloy wire and preparation method thereof
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A high-temperature alloy wire and cobalt-based technology, which is applied in the field of cobalt-based high-temperature alloy wire and its preparation, can solve the problems that the impurity content cannot be effectively controlled, and the corrosion resistance and high-temperature oxidation resistance cannot be better improved.
Inactive Publication Date: 2020-04-10
JIANGSU XINHUA ALLOY ELECTRIC
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Problems solved by technology
The content of impurities in the current cobalt-based alloys still cannot be effectively controlled, and the control of the conten...
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Embodiment 1
[0026] This embodiment provides a cobalt-based superalloy wire, which is composed of the following chemical components in mass percentage: C0.06%, Si≤0.3%, Mn1.1%, P0.015%, S0.015%, Cr19.2%, Ni9.5%, W14.2%, Fe1.6%, other impurities 0.4%, and the balance is Co.
Embodiment 2
[0028] This embodiment provides a cobalt-based superalloy wire, including the following chemical components in mass percentages: C0.07%, Si0.2%, Mn1.2%, P0.01%, S0.01%, Cr20%, Ni10.5%, W14.6%, Fe2.0%, other impurities 0.3%, the balance is Co.
Embodiment 3
[0030] This embodiment provides a cobalt-based superalloy wire, which is composed of the following chemical components in mass percentage: C0.10%, Si0.2%, Mn1.5%, P0.015%, S0.015%, Cr19.6%, Ni10.5%, W15.5%, Fe2.8%, other impurities 0.3%, and the balance is Co.
[0031] Add 19.2-20% Cr to form Cr on the surface 2 o 3 The film layer has excellent corrosion resistance, and will not promote the formation of ε-Co and σ phases due to excessive Cr content, and the appearance of a dual-phase region will reduce the high-temperature strength. In addition, a large number of elements such as Co, 14.2-15.5% W, and 19.2-20% Cr in the cobalt-based alloy can reduce the stacking fault energy and form a large number of stacking faults and twins in the alloy. The wrong movement improves the high-temperature strength of the alloy; and the W content is controlled at 19.2-20%, so as to ensure that the excessive W content will not cause the alloy to be hardened, difficult to cold work, and poor in...
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Abstract
The invention provides a cobalt-based high-temperature alloy wire which is prepared from the following chemical components in percent by mass: 0.06-0.12% of C, less than or equal to 0.3% of Si, 1-1.8%of Mn, less than or equal to 0.015% of P, less than or equal to 0.015% of S, 19.2-20% of Cr, 9.5-10.5% of Ni, 14.2-15.5% of W, less than or equal to 2.8% of Fe, less than or equal to 0.4% of other impurities and the balance Co. By adding 19.2-20% of Cr, the cobalt-based high-temperature alloy wire has excellent corrosion resistance, and a condition that high-temperature strength is decreased as aresult of a double phase area as the content of Cr is too high to promote generation of an epsilon-Co phase and a sigma phase is avoided. Elements such as massive Co, 14.2-15.5% of W and 19.2-20% ofCr and the like in the cobalt-based alloy can reduce stacking fault energy, so that the high-temperature strength of the alloy is improved. The content of W is controlled at 19.2-20%, so that it is ensured that a condition of prominent work hardening of the alloy, difficulty in cold processing and poor stability as the too high W content is avoided. As the cobalt-based high-temperature alloy wirecontains 9.5-10.5% of Ni, the tissue stability of the alloy is improved favorably, and precipitation of a Co7W6 phase is reduced. By adding 1.1-1.8% of Mn, the oxidation resistance of a Ni-Cr alloy isimproved effectively.
Description
technical field [0001] The invention relates to the preparation of alloy materials, in particular to a cobalt-based superalloy wire and a preparation method thereof. Background technique [0002] With the development of industrial technology. It is required to use high-temperature materials with fatigue resistance, creep resistance, thermal stability and oxidation resistance at higher temperatures to meet the design requirements of advanced equipment (mainly aviation applications), so people have never stopped for more than half a century Through the research and development of various high-temperature alloy materials. High-temperature alloys are also called heat-strength alloys and superalloys. According to the matrix structure materials can be divided into three categories: iron-based, nickel-based and chromium-based. Cobalt-based alloys are a class of alloys with cobalt as the main component, containing a considerable amount of nickel, chromium, tungsten, and a small a...
Claims
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