Changes in the structure and properties of ZrO2 detonation coatings during annealing

B. Rakhadilov, D. Kakimzhanov, G. Botabaeva, D. Buitkenov, Nurgamit Kantay, L. Bayatanova
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Abstract

The article studied the effect of annealing on the structure and properties of zirconium dioxide coatings obtained by detonation spraying. Detonation spraying was realized on a computerized detonation spraying complex of the new generation CCDS2000. Determined that coatings made of zirconium dioxide are characterized by high adhesive strength of adherence to the substrate. Thermal annealing of coated samples was performed at temperatures of 900-1200◦ C. It was determined that the microhardness of zirconium dioxide coatings increases by 10-25% depending on the annealing temperature after annealing. The results of nanoindentation showed that the nanohardness of the coatings after annealing at 1000◦ C increases by 50%. It was determined that after annealing at 1000◦ C, the elastic modulus of the coatings increases, which indicates a decrease in plasticity and an increase in the strength of the coatings. X-ray diffraction analysis showed that the phase composition of coatings before and after annealing consists of t-ZrO2. After annealing occurs there is an increase in the degree of t-ZrO2 tetragonality. Electron microscopic analysis showed that an increase in the number and size of micro-continuity in the form of thin layers after annealing. Determined that increase the hardness of zirconium dioxide after annealing at 900-1200◦ C is associated with a higher degree of tetragonality t-ZrO2 phase.
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ZrO2爆轰涂层在退火过程中的结构和性能变化
研究了退火对爆震喷涂二氧化锆涂层结构和性能的影响。在新一代CCDS2000计算机化爆震喷涂复合体上实现了爆震喷涂。确定由二氧化锆制成的涂层的特征在于与基材粘附的高粘附强度。涂层样品的热退火在900-1200的温度下进行◦ C.经测定,二氧化锆涂层的显微硬度随退火后的退火温度而增加10-25%。纳米压痕的结果表明,涂层在1000℃退火后的纳米硬度◦ C增加50%。经测定,在1000℃退火后◦ C、 涂层的弹性模量增加,表明涂层的塑性降低,强度增加。X射线衍射分析表明,退火前后涂层的相组成均为t-ZrO2。在退火发生之后,t-ZrO2的四方性程度增加。电子显微镜分析表明,退火后微观连续性的数量和尺寸以薄层的形式增加。测定了在900-1200退火后提高二氧化锆硬度的方法◦ C与较高程度的四方性t-ZrO2相有关。
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来源期刊
Eurasian Journal of Physics and Functional Materials
Eurasian Journal of Physics and Functional Materials Materials Science-Materials Science (miscellaneous)
CiteScore
1.10
自引率
0.00%
发文量
23
审稿时长
5 weeks
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