Chamfering-free pipe row welding technology of ultra-supercritical boiler high-temperature screen type overheater

A technology for ultra-supercritical boilers and panel superheaters, which is applied to welding media, welding equipment, welding equipment, etc., can solve the problem that welding stress cannot be adjusted through flat steel, affecting the heat transfer coefficient of superheater fillet welds, weld seams, etc. The effects of improving the primary crystallization conditions, shortening the high temperature residence time, and improving the shape factor of the weld can be achieved by solving the problems of large mutual influence

Inactive Publication Date: 2016-02-03
SHANGHAI BOILER WORKS
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  • Abstract
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  • Claims
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Problems solved by technology

[0002] The boiler high-temperature panel superheater is used in the boiler industry. The superheater is installed in the furnace. The main function of the superheater tube row fillet weld is heat transfer, while the traditional ultra-supercritical boiler high-temperature panel superheater SA213-T91 tube row adopts OE -S1CrMo2Φ2.0 welding wire / S-777MXT flux is used for submerged arc welding. This type of welding method has longitudinal cracks in the center of the reverse weld seam, and the crack length is long. After enlarged inspection, intermittent longitudinal cracks are also found in the center of the front weld seam. Cracks, and most of the cracks appear immediately after welding, so the traditional welding process has thermal cracks and crystallization cracks, and the thermal cracks directly affect the heat transfer coefficient of the fillet weld of the superheater. Secondly, the crystallization during the welding process The phenomenon is serious, and it is found in the actual welding process that the flat steel is thick and narrow, and the welding stress after welding cannot be adjusted by the flat steel, resulting in a large degree of weld restraint, which is the main cause of the longitudinal crack in the center of the weld. The low shape coefficient of the weld seam is also the main reason for the crack on the crystallization line in the center of the weld seam. The flat steel is narrow, two torches are close to each other during the welding process, and the fillet welds on both sides are easy to overlap after welding, and the mutual influence between the weld seams is large. The secondary main cause of longitudinal cracks in the center of the weld after welding is that the plasticity and toughness of the joint after welding with acidic flux is worse than that of the joint after welding with alkaline flux, so it is not suitable for Φ51×8T91 pipe row submerged arc welding and welding

Method used

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  • Chamfering-free pipe row welding technology of ultra-supercritical boiler high-temperature screen type overheater
  • Chamfering-free pipe row welding technology of ultra-supercritical boiler high-temperature screen type overheater
  • Chamfering-free pipe row welding technology of ultra-supercritical boiler high-temperature screen type overheater

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Experimental program
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Embodiment 1

[0030] Embodiment one: The non-groove tube row welding process of the high temperature panel superheater of an ultra-supercritical boiler includes the following steps:

[0031] (1) Select SA387-Gr91 flat steel with a thickness of 6mm and a width of 12.5cm; the pipe is a high-pressure boiler alloy pipe, and the pipe is a SA213-T91 seamless high-pressure boiler alloy pipe with a size of Φ51×8×12000mm; welding wire, The size is Φ1.6mm, and the welding wire adopts T91 welding wire; the flux is alkaline flux, the flux is fluorine-alkaline sintered flux, and the alkalinity is 3:2. By using alkaline flux, the crack position can be clearly deviated from the weld crystallization The length of the wire is significantly shorter than that of acidic flux, and the quality of the joint after welding with alkaline flux is greatly improved compared with that after welding with acidic flux, and the plasticity and toughness of the joint are improved;

[0032] (2) Pretreatment before the weldin...

Embodiment 2

[0041] Embodiment two: The difference from Example 1 is that

[0042] (1) Select flat steel with a thickness of 6mm and a width of 13.7cm; the pipe is a high-pressure boiler alloy pipe, and the pipe is a SA213-T91 seamless high-pressure boiler alloy pipe with a size of Φ76×8×12000mm;

[0043] (6) After the first layer of double-layer single-pass welding in step (5) is completed, the second layer of welding is carried out. ~29V, welding speed is 1.2m / min;

[0044] The beneficial effects of the present invention are:

[0045] 1. For the pipe row of SA213-T91, the thickness of the flat steel is changed from δ=9.5mm to δ=6mm, which can reduce the restraint stress of the welding of the pipe row, and part of the welding deformation and welding stress can be better released through the flat steel.

[0046] 2. Submerged arc welding is used for SA213-T91 pipe row structure, and double-layer single-pass welding process is adopted at the same time.

[0047] 3. The SA213-T91 pipe row a...

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Abstract

The invention discloses a chamfering-free pipe row welding technology of an ultra-supercritical boiler high-temperature screen type overheater. Compared with the prior art, the chamfering-free pipe row welding technology is characterized in that firstly, the thickness of flat steel is reduced to 6 mm, and the restraint intensity of welding lines is reduced; secondly, an alkaline soldering flux is adopted, and plasticity and tenacity of a connector are improved; and thirdly, small-standardization parameters are adopted for strict welding. On one hand, the heat input amount is reduced, and the high temperature standing time of a welding pool is shortened; and on the other hand, the crack resistance of the connector is improved. The double-layer single-pass welding is adopted, firstly, the fracture surfaces of all the welding lines of the welding connector can be reduced, the cooling speed can be increased, the one-time crystallization condition is improved, the sequential thermal treatment action is achieved among all layers of welding lines, and accordingly a secondary structure is improved; and secondly, the position of welding line metal crystallization lines is changed. Improving of the strength of the connector is the final purpose. In addition, the thermal treatment parameters of corner welding lines are reasonably adjusted, the standard post-welding thermal treatment of 730-760 DEG C*1 h is carried out, and accordingly the hardness value of the corner welding lines is obviously reduced.

Description

technical field [0001] The invention relates to the technical field of boiler equipment, in particular to a non-groove tube row welding process for a high-temperature panel superheater of an ultra-supercritical boiler. Background technique [0002] The boiler high-temperature panel superheater is used in the boiler industry. The superheater is installed in the furnace. The main function of the superheater tube row fillet weld is heat transfer, while the traditional ultra-supercritical boiler high-temperature panel superheater SA213-T91 tube row adopts OE -S1CrMo2Φ2.0 welding wire / S-777MXT flux is used for submerged arc welding. This type of welding method has longitudinal cracks in the center of the reverse weld seam, and the crack length is long. After enlarged inspection, intermittent longitudinal cracks are also found in the center of the front weld seam. Cracks, and most of the cracks appear immediately after welding, so the traditional welding process has thermal cracks...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): B23K9/18B23K35/36B23K9/235
CPCB23K9/186B23K9/235B23K35/36
Inventor 周新良周昊
Owner SHANGHAI BOILER WORKS
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