A production process of boron-containing alloy steel welding wire
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A production process and alloy steel technology, applied in metal processing equipment, welding medium, manufacturing tools, etc., can solve problems such as low tensile strength, deterioration of torsional performance of steel wire, failure to meet welding requirements, etc.
Active Publication Date: 2015-10-07
唐山鸿鹏焊业有限公司
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[0002] Background Art Wire rods for welding wire (drawing) usually use low-carbon boiling steel wire rods as raw materials, mainly because of their low yield and tensile strength, soft steel, and good drawing performance, as well as low-carbon killed wire rods produced by continuous casting. The drawing wire of steel wire rod has worse performance than that of low-carbon boiling steel. The heat generated by the deformation of the steel wire during the drawing process and the heat generated by the friction between the wire drawing die holes will increase the temperature of the steel wire and cause strain aging. As a result, the torsional performance of the steel wire deteriorates sharply, the bending properties deteriorate, and the number of fractures increases; the yield strength of ordinary low-carbon steel wire is generally below 500MPa, while industrial pipes use boron-containing steel pipes, and the yield strength of the welded pipes is required to reach 500- 550MPa, or even higher, therefore, the low-carbon steel welding consumables in the background technology can no longer meet the welding requirements of this high-strength steel
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[0021] Boron-containing alloy steel wire rod, the mass percentage of chemical composition of each component is: C 0.064, Mn 1.60, Si 0.85, P 0.015, S 0.008, Cu 0.12, Ni 0.03, Cr 0.05, Mo 0.014, V 0.001, B 0.0013.
[0024] Boron-containing alloy steel wire rod, the mass percentage of chemical composition of each component is: C 0.063, Mn 1.61, Si 0.84, P 0.014, S 0.008, Cu 0.11, Ni0.03, Cr 0.05, Mo 0.015, V 0.001, B 0.0012.
[0027] Boron-containing alloy steel wire rod, the mass percentage of the chemical composition of each component is: C 0.063, Mn 1.59, Si 0.84, P 0.013, S 0.008, Cu 0.12, Ni 0.03, Cr 0.05, Mo 0.014, V 0.001, B 0.0012.
[0029] Experiments prove that the boron-containing alloy steel welding wire of the invention has good yield strength and tensile strength, is suitable for welding high-strength steel, has stable quality, and is suitable for mass production.
[0030] The product of the present invention was tested by the National Welding Material Quality Supervision and Inspection Center, and No13T228 "Inspection Report" was issued on November 6, 2013. The conclusion is: boron is added to the welding wire as a microalloying element, which improves the tensile strength of the welding wire , yield strength, especially the low-temperature impact toughness, plasticity and wear resistance of the welding wire are improved, and it...
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Abstract
The invention relates to boron contained alloy steel welding wires and a production process thereof and belongs to the technical field of welding materials. According to the technical scheme, the boron contained alloy steel welding wires are formed by boron contained alloy steel coil rods through machining; boron is added when alloy steel is smelted, block-shaped boron is added in the process of molten steel refining, and refining composition is uniformly dissolved in molten steel to form the boron contained alloy steel coil rods; chemical composition of every component comprises, by mass, 0.06 to 0.10% of carbon, 0.80 to 1.00% of silicon, 1.40 to 1.60% of manganese, 0.025% or less of phosphorus, 0.025% or less of sulfur, 0.15% or less of nickel, 0.15% or less of chromium, 0.15% or less of cuprum and 0.0010 to 0.0030% of boron. Compared with silicon manganese steel welding wires, the fluidity of the molten iron is good in the welding process and welding seams are attractive in appearance; the corrosion resistance is excellent; the hardness and the tensile strength of welding seam deposited metal are improved; the welding strength level is improved.
Description
technical field [0001] The invention relates to a production process of boron-containing alloy steel welding wire, belonging to the technical field of welding materials. Background technique [0002] Background Art Wire rods for welding wire (drawing) usually use low-carbon boiling steel wire rods as raw materials, mainly because of their low yield and tensile strength, soft steel, and good drawing performance, as well as low-carbon killed wire rods produced by continuous casting. The drawing wire of steel wire rod has worse performance than that of low-carbon boiling steel. The heat generated by the deformation of the steel wire during the drawing process and the heat generated by the friction between the wire drawing die holes will increase the temperature of the steel wire and cause strain aging. As a result, the torsional performance of the steel wire deteriorates sharply, the bending properties deteriorate, and the number of fractures increases; the yield strength of or...
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