Welding method of dissimilar material pipes for advanced ultra-supercritical boiler

A technology for ultra-supercritical boilers and dissimilar materials, applied in welding equipment, welding media, welding equipment, etc.

Inactive Publication Date: 2018-06-15
HARBIN BOILER
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0003] The purpose of the present invention is to provide a welding method of dissimilar material pipes for advanced ultra-supercritical boilers, which solves the difficult problem of welding candidate dissimilar materials for ultra-supercritical boilers, and at the same time, welding material selection and welding when welding other dissimilar material pipes Process control is of reference significance

Method used

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  • Welding method of dissimilar material pipes for advanced ultra-supercritical boiler
  • Welding method of dissimilar material pipes for advanced ultra-supercritical boiler
  • Welding method of dissimilar material pipes for advanced ultra-supercritical boiler

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Embodiment 1

[0042] This embodiment takes the small-diameter pipe made of Alloy617B solid-solution strengthened nickel-based alloy and the small-diameter pipe made of GH984G nickel-iron-based alloy as an example to describe the specific implementation of the present invention in detail:

[0043] Alloy617B and GH984G high-temperature nickel-based alloys can be candidate high-temperature nickel-based alloys for advanced ultra-supercritical boilers at 650°C and 700°C due to their excellent high-temperature mechanical properties, corrosion resistance and easy processability. The main chemical composition of Alloy617B is 55Ni-22Cr-12Co-9Mo-Al-Ti, its composition and performance meet the ASME SB-167 standard, and its UNS code is N06617; the main chemical composition of GH984G is 42Ni-22Cr-20Fe-2Mo-Al- Ti-Nb is a high-temperature nickel-iron-based alloy developed by the Institute of Metal Research, Chinese Academy of Sciences. Components welded by dissimilar nickel-based alloy small-diameter pipe...

Embodiment 2

[0066] This embodiment takes the small-diameter pipe made of Alloy617B solid-solution-strengthened nickel-based alloy and the small-diameter pipe made of HAYNES 282 age-strengthened nickel-based alloy as an example to describe the specific implementation of the present invention in detail:

[0067] Alloy617B and HAYNES 282 high-temperature nickel-based alloys are candidate materials for advanced ultra-supercritical boilers at 700 °C due to their excellent high-temperature mechanical properties, corrosion resistance and ease of processing. Nickel-based alloy, whose chemical composition is 57Ni-20Cr-10Co-8.5Mo-Al-Ti, will be used in the 700 ℃ advanced ultra-supercritical boiler to weld the dissimilar nickel-based alloy small-diameter pipes made of these two materials parts.

[0068] Alloy617B is a solid-solution strengthened nickel-based alloy, while HAYNES 282 is an aging-strengthened nickel-based alloy. Due to the segregation of trace elements when the two nickel-based alloys ...

Embodiment 3

[0090] This embodiment takes the small-diameter pipe made of Alloy617B solid-solution-strengthened nickel-based alloy and the small-diameter pipe made of Inconel 740H age-strengthened nickel-based alloy as an example to describe the specific implementation of the present invention in detail:

[0091] Alloy617B and Inconel 740H high-temperature nickel-based alloys are candidate materials for advanced ultra-supercritical boilers at 650°C and 700°C due to their excellent high-temperature mechanical properties, corrosion resistance and ease of processing. The chemical composition of Inconel 740H is 50Ni-25Cr- 20Co-Al-Ti-Nb, the composition and performance meet the ASME Code Case 2702 standard, its UNS code is N07740, and the dissimilar nickel-based alloy made of these two materials will be used in advanced ultra-supercritical boilers at 650°C and 700°C Welded parts of small diameter pipes.

[0092] Alloy617B is a solid-solution strengthened nickel-based alloy, while Inconel 740H i...

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Abstract

The invention discloses a welding method of dissimilar material pipes for an advanced ultra-supercritical boiler, and belongs to the field of welding of the dissimilar material pipes for boilers. Thetechnical essentials of the welding method comprise the following steps: a, performing pre-welding preparation; b, preparing welding materials; c, pre-heating welding joints of two pipes; d, performing interlayer temperature control by adopting a way of spraying and cooling through a water cooling device in a welding process; and e, performing post-welding inspection: inspecting the welding jointsaccording to standard after welding is carried out. According to the welding method of the dissimilar material pipes for the advanced ultra-supercritical boiler disclosed by the invention, when the two dissimilar material pipes are welded, a nickel-based alloy is selected as a filling material, and the interlayer temperature control is carried out by adopting a way of spraying and cooling throughthe water cooling device in a hot-filament tungsten argon arc welding process, so that the welding efficiency cannot be affected when the welding quality is ensured at the same time; whether thermaltreatment is needed or not and how to choose post-welding thermal treatment regime after welding are determined according to chemical components, tissue mechanical performance and the like of materials, and the problem of welding of dissimilar materials among candidate materials for the advanced ultra-supercritical boiler is solved.

Description

Technical field: [0001] The invention relates to the field of processing dissimilar material pipes for advanced ultra-supercritical boilers, in particular to a welding method for dissimilar material pipes for advanced ultra-supercritical boilers. Background technique: [0002] Because solid solution strengthened nickel-based alloys, nickel-iron-based alloys, age-strengthened nickel-based alloys, martensitic heat-resistant steels and new austenitic stainless steels all have excellent high-temperature mechanical properties and corrosion resistance, they are often used as advanced super super Candidate materials for critical boilers. Among the components used in advanced ultra-supercritical boilers, there are often welding of small-diameter tubes of dissimilar materials using the above materials. However, due to the differences in chemical composition, mechanical properties and heat treatment methods of these materials, it is difficult to weld pipes of dissimilar materials. T...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): B23K9/167B23K9/23B23K9/235B23K9/32B23K35/30B23K101/06
CPCB23K9/167B23K9/23B23K9/235B23K9/32B23K35/3033
Inventor 刁旺战王萍欧海燕徐祥久陈肇宇赵卫君张亚奇孙伟
Owner HARBIN BOILER
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