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高温涂料保护熔覆与感应熔覆Ni60涂层的组织与性能比较 被引量:7

Comparison of Microstructures and Properties between Ni60 Coatings Obtained by High-temperature Protective Coating Cladding and Induction Melting
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摘要 分别用高温涂料保护熔覆和感应熔覆两种方法在45钢表面制备了Ni60自熔性合金涂层,并用金相显微镜、XRD、SEM和显微硬度计等分析仪器对这2种熔覆层的组织结构和性能进行了分析比较。试验结果表明:在高温涂料保护熔覆过程中,高温保护涂料能够对基体和熔覆层起到很好的防氧化保护作用,熔覆层表面平整、组织致密、与基体之间结合牢固。通过对高温涂料保护熔覆后的试样进行正火处理,可以改善基体的组织和性能,消除因高温熔覆对基体材料带来的不利影响。与感应熔覆相比,高温涂料保护熔覆层质量好,熔覆设备投资少,可以对各种形状的零件表面进行熔覆处理,是一种高效节能的熔覆处理新技术。 The clad layers of Ni60 self-fluxing alloy were prepared on 45 steel by high-temperature protective coating cladding and induction melting respectively. The microstructures, compositions and microhardness of the cladding layers were analyzed and compared by OPM, SEM, XRD and microhardness testing. The experimental results show that the high-temperature protective coating cladding can prevent the Ni60 alloy powder and matrix from oxidizing and a uniform, adherent and non-dilution cladding layer can be obtained. The adverse effects of high temperature on the matrix material can be overcome by means of the normalizing treatment after the high-temperature protective coating cladding. Compared with the induction melting, the high-temperature protective coating cladding has many advantages, such as high cladding quality, low cladding cost, and various shape cladding.
作者 田浩亮 郑少梅 赵程
机构地区 青岛科技大学 青岛理工大学
出处 《表面技术》 EI CAS CSCD 北大核心 2010年第1期23-25,40,共4页 Surface Technology
关键词 高温涂料保护熔覆 感应熔覆 Ni60自熔性合金粉末 零稀释率熔覆 熔覆层 性能 High-temperature protective coating cladding Induction melting Ni60 self-fluxing alloy Powder Non-dilution cladding Coating Properties
分类号 TG174.45 [金属学及工艺—金属表面处理]
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