M. Fedorischeva, M. Kalashnikov, I. Bozhko, T. Dorofeeva, V. Sergeev
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引用次数: 0
摘要
为了提高材料的耐热性,采用磁控溅射法制备了Zr-Y-O和Si-Al-N相间的多层涂层。结果表明:基于Zr-Y-O的涂层具有柱状结构;柱的高度由层的厚度决定。si - al - n基层是无定形的。zr - y基涂层的组成中存在晶格参数较大的单斜相和四方相。经高温退火后,显微镜柱中出现了晶格参数较小的四方相。在“原位”模式下,在450 ~ 500℃的温度范围内,检测到Zr-Y-O涂层结构状态的变化;即晶粒尺寸和相干散射区域的变化,以及内部弹性应力的增加。结果表明,与单层样品相比,多层样品的热循环电阻提高了两倍以上。
Structural-Phase Change of Multilayer Ceramics Zr-Y-O/Si-Al-N under High Temperature
To increase the thermocyclic resistance of material, multilayer coatings with alternating layers of Zr-Y-O and Si-Al-N were obtained via magnetron sputtering. It was established that a coating layer based on Zr-Y-O has a columnar structure; the height of the columns is determined by the thickness of the layer. The Si-Al-N-based layer is amorphous. There were monoclinic and tetragonal phases with a large lattice parameter in the composition of the Zr-Y-O-based coating layer. After high-temperature annealing, a tetragonal phase with a small lattice parameter appeared in the microscope column. In the “in situ” mode, a change in the structural state of the Zr-Y-O coating layer was detected in the temperature range of 450–500 °C; namely, a change in the grain size and coherent scattering regions, and an increase in internal elastic stresses. It was found that the thermocyclic resistance increased by more than two times for multilayer samples compared to the single-layer ones we studied earlier.
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