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X65/Inconel625双金属复合管微观组织与腐蚀性能

陈煜水方伟刘景阳闫培庆彭铁旭王超贾长友丛玉安胡艳梓李旭

粉末冶金技术2025，Vol.43Issue(4)：465-474,10.

粉末冶金技术2025，Vol.43Issue(4)：465-474,10.DOI:10.19591/j.cnki.cn11-1974/tf.2025030006

X65/Inconel625双金属复合管微观组织与腐蚀性能

Microstructure and corrosion performance of X65/Inconel625 bimetallic composite pipes

陈煜水 ¹方伟 ²刘景阳 ³闫培庆 ³彭铁旭 ¹王超 ³贾长友 ³丛玉安 ³胡艳梓 ³李旭³

作者信息

1. 河北工业大学材料科学与工程学院,天津 300132
2. 河北工业大学材料科学与工程学院,天津 300132||河北省"一带一路"先进材料国际联合研究中心,天津 300132
3. 沧州隆泰迪管道科技有限公司,沧州 061000
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摘要

Abstract

X65/Inconel625 bimetallic composite pipes were fabricated by surfacing welding.The microstructural evolution and compositional distribution characteristics across the various weld cladding layers were systematically investigated.The influence on intergranular corrosion resistance of the bimetallic composite pipes in the ASTM G28 A method(ferric sulfate-sulfuric acid corrosion test)was elucidated.The results indicate that the Inconel 625 cladding layers exhibit the characteristic dendritic microstructure,with significant amount of precipitates present in the interdendritic regions.The number of interdendritic precipitates increases closer to the fusion line.Two types of precipitates are identified within the cladding layer:the small and granular precipitates identified as(Nb,Ti)C carbides,and the larger and irregularly shaped blocky precipitates identified as either M6C phase or Laves phase.During the welding process,Fe diffuses from the X65 steel substrates into the cladding layers.This diffusion of Fe dilutes the concentration of other elements in the Inconel 625.The increase in Fe mass fraction not only leads to the decrease in the content of Ni and Cr,but also promotes the segregation of Nb and Mo in the interdendritic regions,indirectly increasing the number of precipitates.A Cr-depleted zone approximately 1 μm wide forms at the interface between these precipitates and the surrounding matrix.In the ferric sulfate-sulfuric acid corrosion test,the corrosion initiates at the electrochemically active Cr-depleted zones surrounding the precipitates.At these sites,galvanic cells form,accelerating dissolution;the precipitates detach,forming the corrosion pits.As corrosion progresses,these pits interconnect,leading to more severe intergranular corrosion.The corrosion rate shows a positive correlation with the Fe content as y=0.8+0.0385x,whereyis the corrosion rate andxis the mass fraction of Fe.

关键词

堆焊/增材制造/双金属复合管/镍基合金/腐蚀性能

Key words

surfacing welding/additive manufacturing/bimetallic composite pipes/nickel-based alloys/corrosion resistance

分类

矿业与冶金

引用本文复制引用

陈煜水,方伟,刘景阳,闫培庆,彭铁旭,王超,贾长友,丛玉安,胡艳梓,李旭..X65/Inconel625双金属复合管微观组织与腐蚀性能[J].粉末冶金技术,2025,43(4):465-474,10.

基金项目

国家自然科学基金资助项目(51701061) （51701061）

粉末冶金技术

OA北大核心

ISSN：1001-3784

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