Porous alumina/zirconia layered composites with unidirectional pore channels processed using a tertiary-butyl alcohol-based freeze casting

Hong Jun Choi; Tae Young Yang; Seog Young Yoon; Byung Kyu Kim; Hong Chae Park

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Porous alumina/zirconia layered composites with unidirectional pore channels processed using a tertiary-butyl alcohol-based freeze casting

机译：使用叔丁醇基冷冻铸造加工的具有单向孔道的多孔氧化铝/氧化锆层状复合材料

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Symmetric three-layer porous alumina/zirconia composites with controlled "designer" pore structure have been prepared by a tertiary-butyl alcohol-based freeze casting and sintering at 1400-1500 C in air. Unidirectional aligned macropore channels were developed over a long range by controlling the solidification direction of tertiary-butyl alcohol solvent; in this case, they were surrounded by more dense structured walls. In layered composite, the bottom layer consisted of small sized pore channels (～11 μm in diameter) compared with the middle and the top layer, due to the comparatively rapid velocity of the TBA crystal growth during solidification. The compressive strength (63-376 MPa) of the sintered porous layered composite remarkably increased as the porosity decreased (64-32%).

机译：通过基于叔丁醇的冷冻浇铸和在1400-1500°C的空气中烧结制得了具有受控“设计者”孔结构的对称三层多孔氧化铝/氧化锆复合材料。通过控制叔丁醇溶剂的凝固方向，可以长距离开发单向排列的大孔通道。在这种情况下，它们被更密集的结构化墙包围。在层状复合材料中，由于凝固过程中TBA晶体的生长速度较快，因此与中间层和顶层相比，底层由较小的孔道（直径约为11μm）组成。随着孔隙率的降低（64-32％），烧结多孔层状复合材料的抗压强度（63-376MPa）显着增加。

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来源
《Materials Chemistry and Physics》 |2012年第1期|16-20|共5页
作者
Hong Jun Choi; Tae Young Yang; Seog Young Yoon; Byung Kyu Kim; Hong Chae Park;
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作者单位

School of Materials Science and Engineering, Pusan National University, Pusan 609-735, South Korea;

School of Materials Science and Engineering, Pusan National University, Pusan 609-735, South Korea;

School of Materials Science and Engineering, Pusan National University, Pusan 609-735, South Korea;

Department of Polymer Science and Engineering, Pusan National University, Pusan 609-735, South Korea;

School of Materials Science and Engineering, Pusan National University, Pusan 609-735, South Korea;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);
原文格式 PDF
正文语种 eng
中图分类
关键词
A. Microporous materials; B. Solidification; D. Mechanical properties; D. Microstructure;

机译：A.微孔材料;B.凝固;D.机械性能;D.微观结构;

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1. Alumina aerogels with unidirectional channels under different freezing temperatures during freeze casting-Part I: Control and analysis of pore channels [J] . CERAMICS INTERNATIONAL . 2020,第9期

机译：氧化铝气凝胶与单向通道在冻结过程中不同的冻结温度下，第一部分：孔通道的控制和分析
2. Control of pore channel size during freeze casting of porous YSZ ceramics with unidirectionally aligned channels using different freezing temperatures [J] . Liangfa Hu, Chang-An Wang, Yong Huang, Journal of the European Ceramic Society . 2010,第16期

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3. The microstructure and properties of porous alumina/zirconia composites fabricated by a TBA-based freeze casting route [J] . Hong-Jun Choi, Joo-Hyeok Lee, Seog-Young Yoon Journal of Ceramic Processing Research. (Text in English) . 2012,第6期

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4. Microstructure and Electrical Properties of Porous PZT Ceramics with Unidirectional Pore Channel Structure Fabricated by Freeze-casting [C] . Xu Tingting, Wang Chang-An, Guo Rui CICC-7;China international conference on high-performance ceramics . 2012

机译：凝固法制备单向孔道结构多孔PZT陶瓷的微观结构和电性能
5. Directional Freeze Casting of Porous Ceramics: Effects of Processing Parameters on Pore Network Characteristics. [D] . Miller, Sarah Michelle. 2016

机译：多孔陶瓷的定向冻结铸造：加工参数对孔网络特性的影响。
6. Pore Architectures and Mechanical Properties of Porous α-SiAlON Ceramics Fabricated via Unidirectional Freeze Casting Based on Camphene-Templating [O] . Zhaoping Hou, Feng Ye, Qiang Liu, 2019

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7. Bi-directional freeze casting of porous alumina ceramics: A study of the effects of different processing parameters on microstructure [O] . Sana Algharaibeh, Anthony J. Ireland, Bo Su 2019

机译：多孔氧化铝陶瓷的双向冷冻铸造：不同加工参数对微观结构的影响研究
8. Freeze-Spray Deposition of Layered Alumina/Zirconia Composites (Preprint) [R] . Fu, Q., Jongprateep, O., Abbott, A., 2009

机译：层状氧化铝/氧化锆复合材料的冷冻喷雾沉积（预印）

Porous alumina/zirconia layered composites with unidirectional pore channels processed using a tertiary-butyl alcohol-based freeze casting

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