Nickel-based welding electrode for welding nickel-chromium-molybdenum alloy
A technology of alloy steel and nickel-chromium-molybdenum, which is applied in the field of welding materials, can solve the problems of low strength, poor chemical composition matching, large gap between tensile strength and thermal crack resistance, and achieve stable performance, excellent thermal crack resistance, The effect of excellent welding performance
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Embodiment 1
[0025] The core composition of this embodiment is (wt%): C.0.05%, Mn.0.4%, Si.0.13%, S.0.005%, P.0.006%, Cr.21.5%, Ni.60%, Mo.9.1 %, Cu.0.01%, Nb.3.1%, Fe.5.3%, Co.0.02%, and the balance is impurities.
[0026] Taking 100kg welding core as an example, the weight of each component in the coating is as follows: Containing CaCO 3 97.5% marble 13.0kg, containing CaF 2 11.0kg of 96.7% fluorite, containing BaCO 3 98.8% barium carbonate 15.5kg, containing TiO 2 5.5kg of 97.6% rutile, 3.8kg of ferroniobium containing Nb 56.5%, Si 1.5%, Al 0.8%, FeO 26.7%, metal chromium powder 3.5kg, soda ash 0.50kg, electrolytic manganese (Mn≥99.5wt%) 0.47kg , containing ZrO 2 62wt%, SiO 2 25.5wt% zircon sand 1.7kg.
[0027] After the above powder is mixed evenly, add 8.5kg of potassium sodium water glass with a concentration of 43° and mix evenly, send it into the bar press and wrap it on the welding core according to the conventional method, and then bake it at a low temperature of 88°C fo...
Embodiment 2
[0030] In this embodiment, the main contents of the welding core components and the components in the coating are the same as those in Example 1, still taking the 100kg welding core as an example: the weight of each component in the coating: marble 13.5kg, fluorite 13.0kg, barium carbonate 12.5kg , rutile 5.3kg, ferroniobium 3.8kg, metal chromium powder 4.00kg, soda ash 0.53kg, electrolytic manganese 0.52kg, zircon sand 1.32kg;
[0031] The electrode obtained in this example was subjected to welding tests, and the deposited metal composition was: C: 0.017%, Mn: 0.5%, Si: 0.35%, S: 0.01%, P: 0.005%, Cr: 22.5%, Mo: 8.65%, Fe: 5.2%, Co: 0.05%, Cu: 0.04%, Nb: 3.51%, and the balance is Ni and unavoidable impurities.
Embodiment 3
[0033] In this embodiment, the core components and the main contents of each component in the coating are the same as in Example 1, still taking the 100kg welding core as an example: the weight of each component in the coating: marble 14.0kg, fluorite 12.5kg, barium carbonate 13.5kg , rutile 5.2kg, ferroniobium 4.2kg, metal chromium powder 3.80kg, soda ash 0.48kg, electrolytic manganese 0.50kg, zircon sand 1.40kg;
[0034] The electrode obtained in this example was subjected to a welding test, and the deposited metal composition was: C: 0.021%, Mn: 0.42%, Si: 0.38%, S: 0.008%, P: 0.01%, Cr: 21.9%, Mo: 8.75%, Fe: 5.8%, Co: 0.06%, Cu: 0.02%, Nb: 3.42%, and the balance is Ni and unavoidable impurities.
[0035] Above-mentioned embodiment one, two and three: the average value of each mechanical property of three groups of welding deposited metals is: R P0.2 : 540Mpa, Rm: 830Mpa, A 5 The weight of each component in the drug skin: 33.5%, and the impact value at -196°C is 64J.
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