Synthesis of nanopowders and nearly transparent Y2O3 ceramics from Y2(OH)5NO3•nH2O precursors

PHYSICS, TECHNOLOGIES AND INNOVATION (PTI-2019): Proceedings of the VI International Young Researchers’ Conference Pub Date : 2019-12-06 DOI:10.1063/1.5134153

D. Aleshin, S. V. Buynachev, M. Mashkovtsev, E. Gordeev

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Abstract

Synthesis of nanopowders and nearly transparent Y2O3 ceramics from yttrium hydroxynitrate (Y2(OH)5NO3•nH2O) precursors precipitated at constant pH from 7 to 10 was investigated. It is shown that the pH value during controlled mixing of Y(NO3)3 and NH4OH solutions has a significant effect on the structure of precipitated precursors. The anisotropy, lateral dimensions and intensity of crystallization of the plate-like particles decrease with increasing precipitation pH of precursors. It is established that the Y2O3 powders calcined at 700 °C result in a denser ceramic in comparison with the powders calcined at 1000 °C. A nearly transparent ceramics Y2O3 with a relative density of ∼98.5 % and grain size of ∼6 µm was synthesized by uniaxial pressing (P ∼ 374 MPa), followed by sintering at 1700 °C in vacuum for 4 hours.Synthesis of nanopowders and nearly transparent Y2O3 ceramics from yttrium hydroxynitrate (Y2(OH)5NO3•nH2O) precursors precipitated at constant pH from 7 to 10 was investigated. It is shown that the pH value during controlled mixing of Y(NO3)3 and NH4OH solutions has a significant effect on the structure of precipitated precursors. The anisotropy, lateral dimensions and intensity of crystallization of the plate-like particles decrease with increasing precipitation pH of precursors. It is established that the Y2O3 powders calcined at 700 °C result in a denser ceramic in comparison with the powders calcined at 1000 °C. A nearly transparent ceramics Y2O3 with a relative density of ∼98.5 % and grain size of ∼6 µm was synthesized by uniaxial pressing (P ∼ 374 MPa), followed by sintering at 1700 °C in vacuum for 4 hours.

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Y2(OH)5NO3•nH2O前驱体制备纳米粉体及近透明Y2O3陶瓷

研究了在恒定pH 7 ~ 10范围内沉淀羟基硝酸钇(Y2(OH)5NO3•nH2O)前驱体制备纳米粉体和近透明Y2O3陶瓷的工艺。结果表明，Y(NO3)3和NH4OH溶液控制混合时的pH值对沉淀前驱体的结构有显著影响。随着前驱体沉淀pH值的增加，片状颗粒的各向异性、横向尺寸和结晶强度降低。结果表明，在700℃下煅烧的Y2O3粉末比在1000℃下煅烧的粉末具有更致密的陶瓷结构。采用单轴压(P ~ 374 MPa)法制备了相对密度为~ 98.5%、晶粒尺寸为~ 6µm的近透明Y2O3陶瓷，并在1700℃真空烧结4小时。研究了在恒定pH 7 ~ 10范围内沉淀羟基硝酸钇(Y2(OH)5NO3•nH2O)前驱体制备纳米粉体和近透明Y2O3陶瓷的工艺。结果表明，Y(NO3)3和NH4OH溶液控制混合时的pH值对沉淀前驱体的结构有显著影响。随着前驱体沉淀pH值的增加，片状颗粒的各向异性、横向尺寸和结晶强度降低。结果表明，在700℃下煅烧的Y2O3粉末比在1000℃下煅烧的粉末具有更致密的陶瓷结构。采用单轴压(P ~ 374 MPa)法制备了相对密度为~ 98.5%、晶粒尺寸为~ 6µm的近透明Y2O3陶瓷，并在1700℃真空烧结4小时。

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PHYSICS, TECHNOLOGIES AND INNOVATION (PTI-2019): Proceedings of the VI International Young Researchers’ Conference

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