Method for performing stainless steel strip-electrode submerged-arc build-up welding on low-alloy parent steel

A stainless steel strip and submerged arc surfacing technology, which is applied in arc welding equipment, welding media, welding equipment, etc., can solve problems such as cracking and peeling of the stainless steel surfacing layer, improve bonding strength, improve comprehensive performance, and realize safe operation Effect

Inactive Publication Date: 2016-01-13
SHANGHAI ELECTRIC NUCLEAR POWER EQUIP CO LTD
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  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0007] The purpose of the present invention is to provide a method for carrying out submerged arc surfacing welding of stainless steel strip on the base material of low alloy steel, which overcomes the problem of welding joints of submerged arc surfacing welding of stainless steel strip on the base material of low alloy steel in the prior art. The problem of cracking or even peeling of the stainless steel surfacing layer occurs, and the thickness of the hardened layer in the transition zone of the stainless steel strip submerged arc surfacing welding joint is effectively controlled

Method used

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  • Method for performing stainless steel strip-electrode submerged-arc build-up welding on low-alloy parent steel
  • Method for performing stainless steel strip-electrode submerged-arc build-up welding on low-alloy parent steel
  • Method for performing stainless steel strip-electrode submerged-arc build-up welding on low-alloy parent steel

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Embodiment 1

[0062] In this embodiment, the low-alloy steel base material is SA508Gr3Cl2 low-alloy steel, and the size of the test plate is δ100×350×550mm; the specific welding process is:

[0063] Visual inspection and dimensional inspection of the surface to be welded of SA508Gr3Cl2 low alloy steel, and MT inspection.

[0064] Use EQ309L stainless steel welding strip, RECORDINT101Q5 flux on the SA508Gr3Cl2 low-alloy steel base material surface to be surfacing, adopt the horizontal position belt submerged arc surfacing method to carry out the first layer of stainless steel belt submerged arc surfacing welding, and form the first layer of stainless steel surfacing solder layer. During this process, the strip size of the EQ309L stainless steel welding strip is 60mm×0.5mm; the welding current is 750A; the welding voltage is 25V; the preheating temperature is 130°C; the welding speed is 180mm / min; the interlayer temperature is 140°C. And the overlapping amount between each weld bead formed i...

Embodiment 2

[0071] In this embodiment, the low-alloy steel base material is SA508Gr3Cl2 low-alloy steel, and the size of the test plate is δ100×350×550mm; the specific welding process is:

[0072] Visual inspection and dimensional inspection of the surface to be welded of SA508Gr3Cl2 low alloy steel, and MT inspection.

[0073] Use EQ309L stainless steel welding strip, RECORDINT101Q5 flux on the SA508Gr3Cl2 low-alloy steel base material surface to be surfacing, adopt the horizontal position belt submerged arc surfacing method to carry out the first layer of stainless steel belt submerged arc surfacing welding, and form the first layer of stainless steel surfacing solder layer. In this process, the strip size of the EQ309L stainless steel welding strip is 60mm×0.5mm; the welding current is 770A; the welding voltage is 25V; the preheating temperature is 121°C; the welding speed is 180mm / min; the interlayer temperature is 125°C. And the overlapping amount between each weld bead formed is 5~...

Embodiment 3

[0080] In this embodiment, the low-alloy steel base material is SA508Gr3Cl2 low-alloy steel, and the size of the test plate is δ100×350×550mm; the specific welding process is:

[0081] Visual inspection and dimensional inspection of the surface to be welded of SA508Gr3Cl2 low alloy steel, and MT inspection.

[0082] Use EQ309L stainless steel welding strip, RECORDINT101Q5 flux on the SA508Gr3Cl2 low-alloy steel base material surface to be surfacing, adopt the horizontal position belt submerged arc surfacing method to carry out the first layer of stainless steel belt submerged arc surfacing welding, and form the first layer of stainless steel surfacing solder layer. In this process, the strip size of the EQ309L stainless steel welding strip is 60mm×0.5mm; the welding current is 760A; the welding voltage is 28V; the preheating temperature is 150°C; the welding speed is 170mm / min; the interlayer temperature is 200°C. And the overlapping amount between each weld bead formed is 5~...

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Abstract

The invention relates to a method for performing stainless steel strip-electrode submerged-arc build-up welding on low-alloy parent steel. The method comprises the following steps: S1, performing preheating before welding, and performing first-layer stainless steel strip-electrode submerged-arc build-up welding on a surface to be subjected to build-up welding, of the low-alloy parent steel, so as to form a first stainless steel build-up welding layer; S2, performing post-heating treatment; S3, performing second-layer stainless steel strip-electrode submerged-arc build-up welding and third-layer stainless steel strip-electrode submerged-arc build-up welding on the first stainless steel build-up welding layer so as to form a second stainless steel strip-electrode submerged-arc build-up welding layer and a third stainless steel strip-electrode submerged-arc build-up welding layer; and S4, performing postwelding heat treatment. According to the method, the thicknesses of hardening layers of transition regions of stainless steel strip-electrode submerged-arc build-up welding joints are effectively controlled by controlling preheating temperature, interlayer temperature, welding currents, welding voltages, welding speed, temperature of post-heating treatment, time of post-heating treatment, temperature of postwelding heat treatment and time of postwelding heat treatment, so that the thicknesses of the hardening layers are reduced by over 50%; the bonding strength of the build-up welding layers and the parent steel is improved; the problem that in the prior art, a stainless build-up welding layer on the low-alloy parent steel can crack, and even be stripped off, at a stainless steel strip-electrode submerged-arc build-up welding joint is solved.

Description

technical field [0001] The invention relates to a method for carrying out submerged arc surfacing welding of stainless steel strips on a low-alloy steel parent material, which is used for controlling the thickness of a hardened layer in a transition zone at a welded joint, and belongs to the field of welding technology. Background technique [0002] The steam generator is the main equipment of the nuclear island, and the heat generated by the nuclear fuel is conducted from the circuit containing radioactive coolant to the steam circuit driving the steam turbine through the steam generator. Since the high temperature and humid steam has a corrosive effect on the inner surface of the steam generator, the safety performance of the steam generator is of great significance to the safe operation of the nuclear power plant; therefore, in order to improve the corrosion resistance of the inner surface of the steam generator, the steam For the service period of the generator, it is ne...

Claims

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Application Information

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IPC IPC(8): B23K9/04B23K9/18B23K9/095B23K35/02
CPCB23K9/04B23K9/18B23K9/095B23K9/186B23K35/02B23K2103/04
Inventor 张茂龙杨乘东许杰吴琼
Owner SHANGHAI ELECTRIC NUCLEAR POWER EQUIP CO LTD
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