Nickel base alloy welding wire with weld deposit metal capable of being recrystallized

A nickel-based alloy, deposited metal technology, applied in the field of ultra-supercritical power station welding materials, can solve the problems of obvious structure, large residual stress of welded joints, composition segregation, etc. good plasticity

Active Publication Date: 2016-06-22
HUANENG POWER INTERNATIONAL +1
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

[0010] The purpose of the present invention is to provide a welding seam for the existing ultra-supercritical power plant boiler superheater/reheater tube welding joints with la

Method used

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  • Nickel base alloy welding wire with weld deposit metal capable of being recrystallized
  • Nickel base alloy welding wire with weld deposit metal capable of being recrystallized

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0027] see figure 1 , use this welding wire (Φ1.5mm) to weld IN740H nickel-based alloy by manual TIG welding, welding current: 140A, welding voltage: 13V, welding speed: 110mm / min, current type / polarity: DC DC / positive connection SP, interlayer temperature not higher than 100°C, protective gas: Ar, gas flow rate 13L / min. Heat treatment at 1050℃ / 1h after welding, the weld microstructure changed from post-weld columnar crystals and dendrites to equiaxed crystals, and no defects such as welding cracks occurred. After welding, the hardness of the weld is 310HV, and the impact toughness is 22kJ; after post-weld heat treatment, the hardness is reduced to 215HV, and the impact toughness is 31kJ.

Embodiment 2

[0029] see figure 2 , use this welding wire (Φ2.4mm) to weld GH2984 nickel-iron-based alloy by manual TIG welding, welding current: 160A, welding voltage: 14V, welding speed: 120mm / min, current type / polarity: DC / Directly connected to SP, interlayer temperature not higher than 100°C, protective gas: Ar, gas flow rate 15L / min. Heat treatment at 1100℃ / 30min after welding, the weld microstructure changed from post-weld columnar crystals and dendrites to equiaxed crystals, and no defects such as welding cracks occurred. After welding, the hardness of the weld is 300HV, and the impact toughness is 26kJ; after post-weld heat treatment, the hardness is reduced to 210HV, and the impact toughness is 46kJ.

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Abstract

The invention belongs to the field of ultra-supercritical power station welding materials and particularly relates to a solution strengthening type nickel base alloy welding wire high in plasticity. The solution strengthening type nickel base alloy welding wire is suitable for welding of ultra-supercritical boiler superheaters/reheater pipes, welding between the superheaters and boiler gas collection headers (including connecting pipe seats) and welding between the reheater pipes and the boiler gas collection headers (including the connecting pipe seats). The solution strengthening type nickel base alloy welding wire is mainly characterized in that after the welding wire is used in welding conducted through TIG welding (argon tungsten-arc welding), weld deposit metal can be recrystallized after being subjected to postweld heat treatment at the temperature of 1000 DEG C or higher, and dendrite and columnar crystal tissue in an original weld is removed; the hardness of a weld area after welding is 300 HV, and the hardness is reduced to 210 HV after recrystallization; and weld residual stress and component segregation are eliminated, and the welding wire is basically consistent with base metal in appearance. The chemical components of the nickel base alloy welding wire include, by weight percent, smaller than 3% of Fe, 14%-18% of Cr, smaller than or equal to 0.45% of Al and Ti, smaller than 0.9% of Ti/Al, 1.0%-1.5% of Nb, 7.0%-9.8% of Mo, smaller than 0.4% of W, smaller than or equal to 1.0% of Si, 0.5%-1.0% of Mn, smaller than or equal to 0.1% of C, 0.003%-0.005% of B, smaller than or equal to 0.03% of Zr, the balance Ni and smaller than 0.1% of the sum of other impurity elements.

Description

Technical field: [0001] The invention belongs to the field of welding materials for ultra-supercritical power stations, and in particular relates to a recrystallizable nickel-based alloy welding wire for welding deposited metal. Background technique: [0002] With the development of thermal power generation technology, the development of 600 ℃ and above ultra-supercritical coal-fired power generation technology has very important strategic significance and practical application value for my country's energy saving, reduction of pollutants and carbon dioxide emissions. The welding of high-temperature materials in power stations has always been a key technical link in the construction and production of power stations. With the continuous improvement of steam parameters, the alloying degree of high-temperature materials used has been continuously improved, and austenitic stainless steel and nickel-based alloys are widely used, making welding technology difficult. Then increase....

Claims

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Application Information

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IPC IPC(8): B23K35/30B23K9/167
CPCB23K9/167B23K35/3033
Inventor 尹宏飞谷月峰袁勇赵新宝鲁金涛严靖博党莹樱杨珍
Owner HUANENG POWER INTERNATIONAL
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