45~#钢Cr-N包埋共渗涂层的组织特征及形成机理
发布时间:2018-10-21 18:20
【摘要】:目的研究在45~#钢表面包埋共渗沉积Cr_2N涂层提高其耐蚀性的可行性。方法采用包渗法,对在1100℃下保温不同时间,得到不同时期的氮铬共渗涂层。利用扫描电镜及能谱仪、X射线衍射仪研究氮铬共渗层的微观组织及其生长机制,利用极化曲线评估涂层耐蚀性能。结果 45~#钢氮铬包埋共渗在保温4 h时可获得最佳涂层,涂层组织为Cr_2N层(约15μm)、Cr的沉积层(约10μm)、Cr的扩散层(约15μm)。Cr_2N层呈现强烈的(002)晶面择优取向;Cr沉积层为Fe-Cr合金及铬的碳化物相(Cr_7C_3,Cr_3C_2)。在模拟燃料电池腐蚀液中,45~#钢、45涂层样品、304不锈钢自腐蚀电位和自腐蚀电流分别为-0.521 V和230.63μA·cm~(-2),-0.448 V和10.89μA·cm~(-2),-0.299 V和5.26μA·cm~(-2)。当腐蚀电位高于0.3 V时,涂层样品会二次钝化,腐蚀电流低至1.43μA·cm~(-2)。结论沉积Cr_2N的45~#钢样品相对原样其耐蚀性有很大提高,并且当腐蚀电位达到0.3 V以上时,其耐蚀性能优于304不锈钢。
[Abstract]:Aim to study the feasibility of Cr_2N coating deposited on 45 # steel surface by co-infiltration to improve its corrosion resistance. Methods Nitrogen-chromium co-alloying coating was obtained at 1100 鈩,
本文编号:2285955
[Abstract]:Aim to study the feasibility of Cr_2N coating deposited on 45 # steel surface by co-infiltration to improve its corrosion resistance. Methods Nitrogen-chromium co-alloying coating was obtained at 1100 鈩,
本文编号:2285955
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