Ceramic Matrix Composites Reinforced with Carbon Nanotubes: Spark Plasma Sintering, Modeling, Optimization

Fedosova N. A.; Koltsova E. M.; Popova N. A.; Zharikov E. V.; Lukin E. S.

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Ceramic Matrix Composites Reinforced with Carbon Nanotubes: Spark Plasma Sintering, Modeling, Optimization

机译：碳纳米管增强的陶瓷基复合材料：火花等离子体烧结，建模，优化

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The method of spark plasma sintering is used to obtain an alpha-Al2O3-based nanocomposite reinforced with many-walled carbon nanotubes in amounts up to 50 vol.%. A mathematical model is constructed to describe the change in porosity during the sintering operation. The model accounts for the physico-chemical essence of the processes which take place during spark plasma sintering. Results obtained from experimental studies and mathematical modeling are used to determine the optimum sintering regime, which makes it possible to obtain a composite that has zero porosity and a carbon-nanotube content up to 50 vol.%.

机译：火花等离子体烧结的方法被用于获得由多壁碳纳米管增强的基于α-Al2 O 3的纳米复合材料，其含量最高为50体积％。建立一个数学模型来描述烧结操作过程中孔隙率的变化。该模型说明了在火花等离子体烧结过程中发生的过程的物理化学本质。通过实验研究和数学建模获得的结果可用于确定最佳烧结方案，从而可以得到孔隙率为零且碳纳米管含量最高为50 vol。％的复合材料。

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来源
《Refractories and Industrial Ceramics》 |2016年第6期|共5页
作者
Fedosova N. A.; Koltsova E. M.; Popova N. A.; Zharikov E. V.; Lukin E. S.;
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原文格式 PDF
正文语种 eng
中图分类硅酸盐工业;
关键词
composite material; ceramic; aluminum oxide; carbon nanotubes; spark plasma sintering; mathematical modeling;

机译：复合材料;陶瓷;氧化铝;碳纳米管;火花等离子体烧结;数学建模;

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1. Ceramic Matrix Composites Reinforced with Carbon Nanotubes: Spark Plasma Sintering, Modeling, Optimization [J] . Fedosova N. A., Koltsova E. M., Popova N. A., Refractories and Industrial Ceramics . 2016,第6期

机译：碳纳米管增强的陶瓷基复合材料：火花等离子体烧结，建模，优化
2. The influence of heating rate on the microstructural evolutions and mechanical properties of spark plasma sintered multi-walled carbon nanotubes reinforced NiAl intermetallic matrix composites [J] . Olusoji Oluremi Ayodele, Adewale Oladapo Adegbenjo, Mary Ajimegoh Awotunde, Materials Science and Engineering . 2020,第Jana31期

机译：加热速率对火花等离子体烧结多壁碳纳米管增强NiAl金属间化合物基复合材料显微组织演变和力学性能的影响
3. Improving the mechanical properties of carbon nanotube-reinforced pure copper matrix composites by spark plasma sintering and hot rolling [J] . Hui Deng, Jianhong Yi, Chao Xia, Materials Letters . 2018,第JANa1期

机译：通过火花等离子烧结和热轧改善碳纳米管增强的纯铜基复合材料的机械性能
4. Spark plasma sintering of ceramic matrix composite based on alumina, reinforced by carbon nanotubes [C] . A A Leonov, A O Khasanov, V A Danchenko International Conference on Modern Technologies and Materials of New Generations . 2018

机译：基于氧化铝的陶瓷基质复合材料的火花血浆烧结，碳纳米管加固
5. Spark plasma sintering of silicon carbide, multi-walled carbon nanotube and graphene reinforced zirconium diboride ceramic composite. [D] . Balaraman Yadhukulakrishnan, Govindaraajan. 2012

机译：火花等离子体烧结碳化硅，多壁碳纳米管和石墨烯增强的二硼化锆陶瓷复合材料。
6. Characterization of Multiwalled Carbon Nanotube-Reinforced Hydroxyapatite Composites Consolidated by Spark Plasma Sintering [O] . Duk-Yeon Kim, Young-Hwan Han, Jun Hee Lee, -1

机译：火花等离子体烧结固结的多壁碳纳米管增强羟基磷灰石复合材料的表征
7. Effect of Spark Plasma Sintering in Fabricating Carbon Nanotube Reinforced Aluminum Matrix Composite Materials [O] . Hansang Kwon, Akira Kawasaki 2015

机译：放电等离子烧结制备碳纳米管增强铝基复合材料的效果

Ceramic Matrix Composites Reinforced with Carbon Nanotubes: Spark Plasma Sintering, Modeling, Optimization

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