High-temperature creep of carbon nanofiber-reinforced and graphene oxide-reinforced alumina composites sintered by spark plasma sintering

Cano-Crespo Rafael; Malmal Moshtaghioun Bibi; Gomez-Garcia Diego; Dominguez-Rodriguez Arturo; Moreno Rodrigo

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High-temperature creep of carbon nanofiber-reinforced and graphene oxide-reinforced alumina composites sintered by spark plasma sintering

机译：由火花等离子体烧结烧结的碳纳米纤维增强和石墨烯氧化铝复合材料的高温蠕变

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Alumina (Al2O3) ceramic composites reinforced with either graphene oxide (GO) or carbon nanofibers (CNFs) were prepared using Spark Plasma Sintering. The effects of GO and CNFs on the microstructure and in consequence on their mechanical properties were investigated. The microstructure of the sintered materials have been characterized quantitatively prior to and after the creep experiments in order to discover the deformation mechanism. Graphene-oxide reinforced alumina composites were found to be more creep resistant than carbon nanofibers-reinforced alumina ones or monolithic alumina with the same grain size distribution. In all the cases, grain boundary sliding was identified as the deformation mechanism

机译：使用火花等离子体烧结制备用石墨烯（GO）或碳纳米纤维（CNFS）加固的氧化铝（AL2O3）陶瓷复合材料。研究了GO和CNFS对微观结构的影响及其对机械性能的影响。烧结材料的微观结构已经定量地在蠕变实验之前和之后定量表征，以发现变形机制。发现石墨烯 - 氧化物增强氧化铝复合材料比碳纳米纤维增强氧化铝或单片氧化铝更耐蠕变，具有相同的粒度分布。在所有情况下，晶界滑动被鉴定为变形机制

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来源
《CERAMICS INTERNATIONAL》 |2017年第9期|共6页
作者
Cano-Crespo Rafael; Malmal Moshtaghioun Bibi; Gomez-Garcia Diego; Dominguez-Rodriguez Arturo; Moreno Rodrigo;
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作者单位

Univ Seville Dept Fis Mat Condensada Apartado 1065 E-41080 Seville Spain;

Univ Seville Dept Fis Mat Condensada Apartado 1065 E-41080 Seville Spain;

Univ Seville Dept Fis Mat Condensada Apartado 1065 E-41080 Seville Spain;

Univ Seville Dept Fis Mat Condensada Apartado 1065 E-41080 Seville Spain;

CSIC ICV E-28049 Madrid Spain;

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原文格式 PDF
正文语种 eng
中图分类陶瓷工业;硅酸盐工业;
关键词
Graphene-oxide; Carbon nanofiber; Alumina composites; Creep resistance;

机译：石墨烯;碳纳米纤维;氧化铝复合材料;抗蠕变性;

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1. High-temperature creep of carbon nanofiber-reinforced and graphene oxide-reinforced alumina composites sintered by spark plasma sintering [J] . Cano-Crespo Rafael, Malmal Moshtaghioun Bibi, Gomez-Garcia Diego, CERAMICS INTERNATIONAL . 2017,第9期

机译：由火花等离子体烧结烧结的碳纳米纤维增强和石墨烯氧化铝复合材料的高温蠕变
2. Highly creep-resistant alumina-SiC nanocomposites processed by spark plasma sintering [J] . M. Jaafar, H. Reveron, C. Esnouf Scripta materialia . 2013,第2期

机译：火花等离子体烧结加工的高抗蠕变氧化铝-SiC纳米复合材料
3. Contact-mechanical properties at pre-creep temperatures of fine-grained graphene/SiC composites prepared in situ by spark-plasma sintering [J] . Benito Roman-Manso, Estibaliz Sanchez-Gonzalez, Angel L. Ortiz Journal of the European Ceramic Society . 2014,第5期

机译：火花等离子体烧结原位制备的细粒石墨烯/ SiC复合材料在蠕变温度下的接触机械性能
4. Dispersion of Carbon Nanotubes in Alumina using a Novel Mixing Technique and Spark Plasma Sintering of the Nanocomposites with Improved Fracture Toughness [C] . Nabi Bakhsh, Fazal Ahmad Khalid, Abbas Saeed Hakeem International Ceramics Congress . 2014

机译：碳纳米管在氧化铝中的分散使用一种新的混合技术和纳米复合材料的火花等离子体烧结，具有改进的断裂韧性
5. Sintering of nanophase alumina powder and alumina composites reinforced with carbon nanotubes, and creep of ceramic matrix composites. [D] . Chang, Sekyung. 2000

机译：纳米相氧化铝粉末和碳纳米管增强氧化铝复合材料的烧结，以及陶瓷基复合材料的蠕变。
6. Spark Plasma Sintering Apparatus Used for High-temperature Compressive Creep Tests [O] . Barak Ratzker, Sergey Kalabukhov, Nachum Frage 2020

机译：用于高温压缩蠕变测试的火花等离子烧结设备
7. High-Temperature Tribological Properties of Al₂O₃-X (X: BaCrO₄, BaSO₄ and CaSO₄) Spark-Plasma-Sintered Composites Containing Sintering Additives [O] . Takashi Murakami, Jiahu Ouyang, Atsushi Korenaga, 2004

机译：Al _{2 O _{3 -x（x：Bacro _{4 ，Baso _{4 和Caso的高温摩擦学性质<亚> 4 ）火花血浆烧结复合材料，含有烧结添加剂}}}}

High-temperature creep of carbon nanofiber-reinforced and graphene oxide-reinforced alumina composites sintered by spark plasma sintering

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