首页|期刊导航|热力发电|304不锈钢在含Al太阳能储热熔盐中的腐蚀行为研究

304不锈钢在含Al太阳能储热熔盐中的腐蚀行为研究OA

Study on corrosion behavior of 304 stainless steel in aluminum-containing solar thermal storage molten salt

中文摘要英文摘要

[目的]为提升 304不锈钢在高温氯化物熔盐中的耐蚀性能,明确Al粉作为缓蚀剂的应用效果及缓蚀机理,为太阳能储热熔盐体系的材料防护提供实践参考.[方法]采用动电位极化和电化学阻抗谱法研究 304 不锈钢在 700℃的 NaCl-KCl-MgCl2 熔盐中添加质量分数分别为 0、1%、2%和 5%的 Al 粉后的高温电化学腐蚀行为,采用SEM/EDS 和 XRD 分析腐蚀产物的形貌与相组成.[结果]Al粉的添加显著抑制了 304不锈钢的腐蚀,当添加量达到5%时,腐蚀电流密度从299.98 mA/cm2(未添加)降至31.673 mA/cm2,降幅高达89.4%.腐蚀100 h后,合金内部扩散层厚度从 150 μm(未添加)显著减薄至 36 μm(添加5%Al粉).[结论]其缓蚀机理为:Al粉优先与熔盐中的杂质反应在304不锈钢表面生成 Al2O3膜,进而向内扩散形成富 Al 层,阻碍 Cr、Fe 等内部元素的向外扩散,最终形成由表面Al2O3膜与内层富Al层扩散屏障组成的协同防护体系.

[Objective]This article aims to improve the corrosion resistance of 304 stainless steel in high-temperature chloride molten salts,clarify the application effect and corrosion inhibition mechanism of aluminum powder as a corrosion inhibitor,and provide a practical reference for the material protection of solar thermal storage molten salt systems.[Methods]The high-temperature electrochemical corrosion behavior of 304 stainless steel was investigated in a ternary chloride molten salt(NaCl-KCl-MgCl2)at 700℃with the addition of aluminum powder at mass fractions of 0,1%,2%,and 5%respectively.Potentiodynamic polarization(PDP)and electrochemical impedance spectroscopy(EIS)were employed to evaluate the corrosion kinetics and interfacial characteristics.The surface and cross-sectional morphologies,elemental distribution,and phase composition of corrosion products were analyzed using scanning electron microscopy combined with energy-dispersive spectroscopy(SEM/EDS)and X-ray diffraction(XRD).[Results]The addition of aluminum powder significantly suppressed the corrosion of 304 stainless steel.With 5%aluminum powder addition,the corrosion current density decreased from 299.98 mA/cm2(without addition)to 31.673 mA/cm2,representing a reduction of 89.4%.The polarization resistance increased markedly from 0.348 Ω(without aluminum)to 2.974 Ω(with 5%aluminum),indicating enhanced resistance to corrosion reactions.Electrochemical impedance spectroscopy(EIS)analysis revealed that the addition of aluminum altered the corrosion control mechanism from diffusion-controlled(without aluminum)to a dual-layer synergistic protection system at higher aluminum contents.After 100 h of corrosion,the thickness of the internal diffusion layer was significantly reduced from 150 μm(without aluminum)to 36 μm(with 5%aluminum powder addition).XRD and SEM/EDS analysis showed that at aluminum additions of 2% and 5%,a continuous and dense Al2O3 layer formed on the surface,while aluminum diffused inward to form an aluminum-rich layer and intermetallic AlNi3 phase within the alloy subsurface.This dual-layer structure effectively suppressed the outward diffusion of Cr and Fe,thereby mitigating corrosion.[Conclusion]The corrosion inhibition mechanism of aluminum powder involves a synergistic protective process.Aluminum preferentially reacts with oxidizing impurities(e.g.,moisture and oxygen)in the molten salt,forming a stable Al2O3 film on the alloy surface.Simultaneously,a portion of aluminum diffuses inward,creating an aluminum-rich layer and precipitating AlNi3 phases,which together act as an internal diffusion barrier.This combined surface film and internal diffusion barrier system effectively blocks the outward migration of Cr and Fe,substantially reducing the corrosion rate.The results demonstrate that adding aluminum powder to chloride molten salts is a simple and effective strategy to enhance the corrosion resistance of 304 stainless steel.Future work should focus on the evaluation of the long-term durability and erosion resistance of this protective system under dynamic flow conditions,to facilitate its practical applications in concentrating solar power systems.

吕凤圆;朱明;张慧慧;解盘石;吕文玉;汤成

西安科技大学能源与矿业工程学院,陕西 西安 710054||西安科技大学材料科学与工程学院,陕西 西安 710054西安科技大学能源与矿业工程学院,陕西 西安 710054西安科技大学材料科学与工程学院,陕西 西安 710054西安科技大学能源与矿业工程学院,陕西 西安 710054西安科技大学能源与矿业工程学院,陕西 西安 710054西安科技大学能源与矿业工程学院,陕西 西安 710054

304不锈钢铝缓蚀剂氯化物熔盐高温电化学腐蚀协同保护

304 stainless steelaluminum powder corrosion inhibitorchloride molten salthigh-temperature electrochemical corrosionsynergistic protection system

《热力发电》 2026 (6)

83-90,8

国家自然科学基金项目(51201131) National Natural Science Foundation of China(51201131)

10.19666/j.rlfd.202510034

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