High temperature deformability of ductile flash-sintered ceramics via in-situ compression

Jaehun Cho; Qiang Li; Han Wang; Zhe Fan; Jin Li; Sichuang Xue; K. S.N. Vikrant; Haiyan Wang; Troy B. Holland; Amiya K. Mukherjee; R. Edwin García; Xinghang Zhang

doi:10.1038/s41467-018-04333-2

High temperature deformability of ductile flash-sintered ceramics via in-situ compression

Jaehun Cho
, Qiang Li
, Han Wang
, Zhe Fan
, Jin Li
, Sichuang Xue
, K. S.N. Vikrant
, Haiyan Wang
, Troy B. Holland
, Amiya K. Mukherjee
, R. Edwin García
, Xinghang Zhang

Purdue University
Oak Ridge National Laboratory
Colorado State University
University of California at Davis

科研成果: 期刊稿件 › 文章 › 同行评审

132 引用（Scopus）

摘要

Flash sintering has attracted significant attention as its remarkably rapid densification process at low sintering furnace temperature leads to the retention of fine grains and enhanced dielectric properties. However, high-Temperature mechanical behaviors of flash-sintered ceramics remain poorly understood. Here, we present high-Temperature (up to 600 °C) in situ compression studies on flash-sintered yttria-stabilized zirconia (YSZ). Below 400 °C, the YSZ exhibits high ultimate compressive strength exceeding 3.5 GPa and high inelastic strain (~8%) due primarily to phase transformation toughening. At higher temperatures, crack nucleation and propagation are significantly retarded, and prominent plasticity arises mainly from dislocation activity. The high dislocation density induced in flash-sintered ceramics may have general implications for improving the plasticity of sintered ceramic materials.

源语言	英语
文章编号	2063
期刊	Nature Communications
卷	9
期	1
DOI	https://doi.org/10.1038/s41467-018-04333-2
出版状态	已出版 - 1 12月 2018
已对外发布	是

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title = "High temperature deformability of ductile flash-sintered ceramics via in-situ compression",

abstract = "Flash sintering has attracted significant attention as its remarkably rapid densification process at low sintering furnace temperature leads to the retention of fine grains and enhanced dielectric properties. However, high-Temperature mechanical behaviors of flash-sintered ceramics remain poorly understood. Here, we present high-Temperature (up to 600 °C) in situ compression studies on flash-sintered yttria-stabilized zirconia (YSZ). Below 400 °C, the YSZ exhibits high ultimate compressive strength exceeding 3.5 GPa and high inelastic strain (\textasciitilde{}8\%) due primarily to phase transformation toughening. At higher temperatures, crack nucleation and propagation are significantly retarded, and prominent plasticity arises mainly from dislocation activity. The high dislocation density induced in flash-sintered ceramics may have general implications for improving the plasticity of sintered ceramic materials.",

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AU - Cho, Jaehun

AU - Li, Qiang

AU - Wang, Han

AU - Fan, Zhe

AU - Li, Jin

AU - Xue, Sichuang

AU - Vikrant, K. S.N.

AU - Wang, Haiyan

AU - Holland, Troy B.

AU - Mukherjee, Amiya K.

AU - García, R. Edwin

AU - Zhang, Xinghang

PY - 2018/12/1

Y1 - 2018/12/1

N2 - Flash sintering has attracted significant attention as its remarkably rapid densification process at low sintering furnace temperature leads to the retention of fine grains and enhanced dielectric properties. However, high-Temperature mechanical behaviors of flash-sintered ceramics remain poorly understood. Here, we present high-Temperature (up to 600 °C) in situ compression studies on flash-sintered yttria-stabilized zirconia (YSZ). Below 400 °C, the YSZ exhibits high ultimate compressive strength exceeding 3.5 GPa and high inelastic strain (~8%) due primarily to phase transformation toughening. At higher temperatures, crack nucleation and propagation are significantly retarded, and prominent plasticity arises mainly from dislocation activity. The high dislocation density induced in flash-sintered ceramics may have general implications for improving the plasticity of sintered ceramic materials.

AB - Flash sintering has attracted significant attention as its remarkably rapid densification process at low sintering furnace temperature leads to the retention of fine grains and enhanced dielectric properties. However, high-Temperature mechanical behaviors of flash-sintered ceramics remain poorly understood. Here, we present high-Temperature (up to 600 °C) in situ compression studies on flash-sintered yttria-stabilized zirconia (YSZ). Below 400 °C, the YSZ exhibits high ultimate compressive strength exceeding 3.5 GPa and high inelastic strain (~8%) due primarily to phase transformation toughening. At higher temperatures, crack nucleation and propagation are significantly retarded, and prominent plasticity arises mainly from dislocation activity. The high dislocation density induced in flash-sintered ceramics may have general implications for improving the plasticity of sintered ceramic materials.

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High temperature deformability of ductile flash-sintered ceramics via in-situ compression

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