Gas-atomized Fe_(59)Cr_(12)Nb_5B_(20)Si_4 amorphous powders were deposited to form amorphous coatings on the ASTM 4032 aluminum alloy substrate by HVOF thermal spraying under different conditions. The microstructural studies show that the coatings exhibit dense layered structure and relatively low porosity, less than 1.3%. The coatings primarily consist of amorphous matrix with some precipitated nanocrystals, and the amorphous fractions of all the coatings are more than 40% by calculation from DSC results. Depending on the structure advantage, the coatings exhibit high microhardness, from 1230 HV to 1285 HV. Meanwhile, the bonding strength of as-deposited coatings increases with the rising flow of oxygen and kerosene, reached to 53.3 MPa. The ability of heat transport of asdeposited Fe-based coatings were investigated by calculation thermal conductivities from k= aρC_p. The results show that the thermal conductivity ascends slightly with the enlargement of spraying parameter in examined range, from 1.99 to 3.1 W/mK. However, thermal conductivities of all designed coatings are lower than metal-based materials. Furthermore, it is also notable that the microstructural characteristic and performance of the Fe-based coatings under different spraying conditions are similar, which manifests the Fe_(59)Cr_(12)Nb_5B_(20)Si_4 powder has a great broad adaptability for HVOF thermal spraying process. It is very important for practical engineering applications.
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机译:气相雾化的Fe_(59)Cr_(12)Nb_5B_(20)Si_4非晶态粉末通过HVOF热喷涂在不同条件下沉积在ASTM 4032铝合金基板上以形成非晶态涂层。显微组织研究表明,涂层表现出致密的层状结构和相对较低的孔隙率,小于1.3%。涂层主要由具有一些沉淀纳米晶体的无定形基质组成,并且根据DSC结果计算,所有涂层的无定形分数均超过40%。根据结构优势,涂层表现出高的显微硬度,从1230 HV到1285 HV。同时,沉积的涂层的结合强度随着氧气和煤油流量的增加而增加,达到53.3 MPa。通过从k =aρC_p计算热导率,研究了沉积的铁基涂层的传热能力。结果表明,在从1.99至3.1 W / mK的检查范围内,随着喷涂参数的增大,导热系数会略有上升。但是,所有设计涂层的热导率均低于金属基材料。此外,值得注意的是,在不同喷涂条件下,铁基涂层的微观结构特征和性能相似,这表明Fe_(59)Cr_(12)Nb_5B_(20)Si_4粉末对HVOF热具有很宽的适应性。喷涂过程。这对于实际工程应用非常重要。
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