Development of composite ceramic materials with improved thermal conductivity and plasticity based on garnet-type oxides

Golovkina L. S.; Orlova A. I.; Boldin M. S.; Sakharov N. V.; Chuvildeev V. N.; Nokhrin A. V.; Konings R.; Staicu D.

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Development of composite ceramic materials with improved thermal conductivity and plasticity based on garnet-type oxides

机译：基于石榴石型氧化物的导热率和可塑性的复合陶瓷材料的开发

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Powders based on the complex garnet-type oxide Y2.5Nd0.5Al5O12 - x wt. % Ni (x = 0, 10, 20) were prepared using wet chemistry methods. Ceramics based on these compounds were obtained by Spark Plasma Sintering (SPS) with a relative densities: 99%. 4% (TD = 4.77 g/cm(3) (0%)), 97.6% (TD = 4.88 g/cm(3) (10%)), 94.4% (TD = 5.06 g/cm3 (20%)). The influence of nickel concentration on the mechanical (fracture toughness, microhardness) and thermophysical (thermal conductivity) properties of the composites was studied. (C) 2017 Elsevier B.V. All rights reserved.

机译：基于复合石榴石型氧化物Y2.5nd0.5Al5O12-x Wt的粉末。使用湿化学方法制备％Ni（X = 0,10,20）。基于这些化合物的陶瓷通过火花等离子体烧结（SPS）获得，具有相对密度：99％。 4％（Td = 4.77g / cm（3）（0％）），97.6％（Td = 4.88g / cm（3）（10％）），94.4％（Td = 5.06g / cm 3（20％））。研究了镍浓度对基复合材料的机械（断裂韧性，显微硬度）和热神族（导热性）性质的影响。（c）2017年Elsevier B.V.保留所有权利。

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《Journal of Nuclear Materials: Materials Aspects of Fission and Fusion》 |2017年第2017期|共6页
作者
Golovkina L. S.; Orlova A. I.; Boldin M. S.; Sakharov N. V.; Chuvildeev V. N.; Nokhrin A. V.; Konings R.; Staicu D.;
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Lobachevsky State Univ Nizhni Novgorod Nizhnii Novgorod 603950 Russia;

Lobachevsky State Univ Nizhni Novgorod Nizhnii Novgorod 603950 Russia;

Lobachevsky State Univ Nizhni Novgorod Nizhnii Novgorod 603950 Russia;

Lobachevsky State Univ Nizhni Novgorod Nizhnii Novgorod 603950 Russia;

Lobachevsky State Univ Nizhni Novgorod Nizhnii Novgorod 603950 Russia;

Lobachevsky State Univ Nizhni Novgorod Nizhnii Novgorod 603950 Russia;

European Commiss Joint Res Ctr Directorate Nucl Safety &

Secur G D-76125 Karlsruhe Germany;

European Commiss Joint Res Ctr Directorate Nucl Safety &

Secur G D-76125 Karlsruhe Germany;

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正文语种 eng
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1. Development of composite ceramic materials with improved thermal conductivity and plasticity based on garnet-type oxides [J] . Golovkina L. S., Orlova A. I., Boldin M. S., Journal of Nuclear Materials: Materials Aspects of Fission and Fusion . 2017,第期

机译：基于石榴石型氧化物的导热率和可塑性的复合陶瓷材料的开发
2. Spark Plasma Sintering of fine-grained ceramic-metal composites YAG:Nd-(W,Mo) based on garnet-type oxide Y2.5Nd0.5Al5O12 for inert matrix fuel [J] . Golovkina L. S., Orlova A. I, Nokhrin A. V, Journal of Nuclear Materials: Materials Aspects of Fission and Fusion . 2018,第期

机译：精细晶粒陶瓷 - 金属复合材料的火花等离子体烧结YAG：基于石榴石型氧化物Y2.5nd0.5Al5O12的惰性矩阵燃料的Nd-（W，Mo）
3. The Influence of Crystalline Phase Additions on the Mechanical Properties of Dental Ceramic Materials Part 2.2: Ceramic Materials Reinforced with Alumina Oxide-based Nanocomposites [J] . A. Pisitanusorn, W. Schulle, R. Yimnirun Interceram: International Journal for Bricks, Structural Clay Products, Refractories, Pottery, Fine Ceramics, Abrasives and Special Ceramics . 2007,第1期

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4. Design of New oxide Ceramic Materials and Nanocomposites with Mixed Conductivity By Using Mechanical Activation Route [C] . Vladimir V.Zyryanov, Nikolai F.Uvarov, Vitalii G.Kostrovskii, Materials Research Society Symposium . 2003

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7. Composite Ceramics Based on Garnet-type Oxide Y2.5Nd0.5Al5O12 and Silicon Carbide. Preparation. Properties [O] . L Golovkina, A Orlova, M Boldin, 2018

机译：基于石榴石型氧化物Y2.5nd0.5Al5O12和碳化硅的复合陶瓷。准备。特性
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Development of composite ceramic materials with improved thermal conductivity and plasticity based on garnet-type oxides

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