Oxidation-affected zone in the sintered ZrB2–SiC–HfB2 composites

E. Dodi, Z. Balak, Hosein Kafashan
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引用次数: 4

Abstract

Understanding the behavior of ultra-high temperature ceramics (UHTCs) against oxidation is of particular importance in high-temperature applications. In this study, ZrB2–SiC–HfB2 UHTC composites were fabricated by spark plasma sintering (SPS) method at different temperatures, times, and pressures to investigate the effects of sintering process variables on their oxidation resistance. Before the oxidation tests, the as-sintered samples contained ZrB2 and SiC phases with (Zr,Hf)B2 solid solution. The samples were subjected to oxidative conditions at 1400 °C and their relative mass changes were measured as a function of oxidation time up to 20 hours. FESEM and EDS equipment were used for microstructural and elemental analyzes of cross-sections of different oxide layers. Due to the oxygen diffusion, ZrO2 and SiO2 phases appeared alongside (Zr, Hf)O2 in the surface layers. After identifying the several oxides and SiC-depleted layers in the oxidation-affected zone, a schematic model for the arrangement of such layers was proposed.
烧结ZrB2-SiC-HfB2复合材料的氧化影响区
了解超高温陶瓷(UHTCs)的抗氧化行为在高温应用中具有特别重要的意义。本研究采用火花等离子烧结(SPS)方法,在不同温度、时间和压力下制备ZrB2-SiC-HfB2 UHTC复合材料,研究烧结工艺变量对其抗氧化性能的影响。在氧化试验前,烧结试样中含有(Zr,Hf)B2固溶体的ZrB2和SiC相。将样品置于1400°C的氧化条件下,并测量其相对质量变化作为氧化时间长达20小时的函数。利用FESEM和EDS设备对不同氧化层的截面进行了显微组织和元素分析。由于氧的扩散作用,在表层中出现了与(Zr, Hf)O2相并存的ZrO2和SiO2相。在确定了氧化影响区内的几种氧化物和贫碳化硅层后,提出了氧化影响区内贫碳化硅层排列的示意图模型。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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