提高碳钢常温耐蚀性能的磷酸盐镀膜液的制备

Dhafer Fezaa Ali, A. A. Abdulkarim, Yosra Mohammed Mahdi, Omar Akram Ahmad
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摘要

本文以磷酸钠(Na3PO4)、硝酸钠(NaNO3)和碳酸镍(NiCO3)为促进剂,制备了不同的锌磷化溶液。NaNO3浓度为20 ~ 80 g/L。NiCO3浓度为1 ~ 15g /L。为了确定纳米3和NiCO3之间的相互作用,我们还研究了混合加速器。采用恒电位实验对金属表面进行腐蚀检测。采用便携式相机显微镜对涂层样品进行表面图像采集。实验研究表明,浸泡时间为10 min时,各促进剂的腐蚀倾向均显著增强。结果表明,随着纳米3在磷酸盐溶液中的浓度增加,纳米3的耐腐蚀性增强,在80 g/L时达到最大保护作用。而溶液中NiCO3浓度为1 g/L(较低)时,防腐效果较好。在NaNO3和NiCO3浓度分别为80 g/L和5 g/L时,混合加速剂的腐蚀电流(1.83 mA)较低,晶粒尺寸较小。铬酸浓度对耐蚀性有显著影响。
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Preparation of Phosphate Coating Solution to Increase the Corrosion Resistance of Carbon Steel in Ambient Conditions
In this work, different zinc phosphating solutions were prepared using sodium phosphate (Na3PO4), sodium nitrate (NaNO3), and nickel carbonate (NiCO3) as accelerators. NaNO3 concentration was ranged from 20 to 80 g/L. While the NiCO3 concentration ranged from 1 to 15 g/L. To identify the interactions between the NaNO3and NiCO3, mixed accelerators were also investigated. Corrosion inspection of the metal surface was tested using potentiostatic experiments. Portable camera microscope was used to capture the surface images of coated samples.  The experimental investigations revealed that the immersion time of 10 min significantly enhanced the corrosion tendency of all accelerators. It was noticed that the corrosion resistance was enhanced with more concentration of NaNO3in the phosphate solution and reached their maximum protection at 80 g/L. While 1 g/L of NiCO3 in solution (which represents the lower value), exhibited higher protection against corrosion. Mixed accelerators resulted in smaller grain size with lower corrosion current (1.83 mA) at 80 g/L and 5 g/L of NaNO3 and NiCO3, respectively. It was also found that chromic acid concentration significantly affected the corrosion resistance.
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