°</sup>C )、不同氫氣分壓 (1,2,3MPa) 和不同腐蝕時間 (72,120,168h) 的臨氫環(huán)境的腐蝕過程,分析實驗試樣的腐蝕增質(zhì)量規(guī)律、表面元素價態(tài)(XPS)分布和表面形貌(SEM)特點。實驗結(jié)果表明:Inconel 625合金在腐蝕時間達(dá)到120和 168h 時出現(xiàn)質(zhì)量變化;Inconel60O、Inconel625合金由于具有較低的Fe/Ni比,同時含有 20% 左右的 Cr ,易生成致密的 Fe-Cr 與 Ni-Cr 尖晶石結(jié)構(gòu)的氧化物,對合金具有較好的保護(hù)作用,因此表現(xiàn)出優(yōu)異的抗氫腐蝕性能;在同時含有質(zhì)量分?jǐn)?shù)為 20% 的Cr時,Fe/Ni比越大,越容易生成穩(wěn)定的 Fe<sub>x</sub>Cr<sub>(3-x)</sub>O<sub>4</sub> 和 Fe<sub>m</sub>Ni<sub>(3-m)</sub>O<sub>4</sub> ,能表現(xiàn)出較好的抗氫脆性能;Inconel625合金的抗氫腐蝕能力大于Inconel600合金。該研究結(jié)果可為臨氫超臨界水中的容器選材提供支撐。-龍源期刊網(wǎng)" />

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臨氫超臨界水中鎳基合金的腐蝕機(jī)理研究

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關(guān)鍵詞:臨氫環(huán)境;超臨界水;鎳基合金;腐蝕機(jī)理

中圖分類號:TB37文獻(xiàn)標(biāo)志碼:A

DOI:10.7652/xjtuxb202507018 文章編號:0253-987X(2025)07-0182-11

Study on the Corrosion Mechanisms of Nickel-Based Alloys in Hydrogen-Containing Supercritical Water

WANG Hao1,WANG Danqing1'2,XI Kenan1,3,LU Youjun1 (1.State KeyLaboratoryof MultiphaseFlowinPower Engineering,Xi'an Jiaotong University,Xi'an71o049,China; 2.BYDAutomotive Limited Company,Xi'an,71o119,China;3.Northwest Institute of Nuclear Technology,Xi'an,710024,China)

Abstract: To address the corrosion issues of nickel-based alloys in a hydrogen-containing supercritical water environment,this study explores the corrosion processes of Inconel 60o and Inconel 625 alloys through systematic experimentation,revealing their corrosion mechanisms. A systematic comparison is made of the corrosion processes of the two allys under different temperatures (575,600 ,and 625°C ),different hydrogen partial pressures(1,2,and 3MPa ), and different corrosion durations(72,120,and 168h ). The corrosion mass gain patterns, surface elemental valence state distributions (XPS),and surface morphology characteristics (SEM) of the experimental samples are analyzed. The experimental results indicate that Inconel

625 alloy shows changes in mass after 120h and 168h of corrosion;both Inconel 6oo and Inconel 625 alloys,due to their lower Fe/Ni ratio and approximately 20% (204號 Cr content,easily form dense Fe-Cr and Ni-Cr spinel oxide structures, which provide good protection against corrosion,thus exhibiting excellent hydrogen corrosion resistance;when a certain amount of Cr ( 20% by mass) is present,a higher Fe/Ni ratio facilitates the formation of stable FexCr(3-x)O4 and FemNi(3-m)O4 , which exhibit better hydrogen embrittlement resistance; among the two materials, Inconel 625 has superior hydrogen corrosion resistance compared to Inconel 6Oo. The findings provide support for material selection in containers used in hydrogen-containing supercritical water environments.

Keywords: hydrogen-containing environment; supercritical water; Ni-based aloy; corrosionmechanism

超臨界水氣化(SCWG)制氫技術(shù),是利用超臨界水的獨(dú)特理化性質(zhì),在超臨界水環(huán)境下對有機(jī)物進(jìn)行低溫催化、氣化反應(yīng),生成氫氣和二氧化碳。(剩余14980字)

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