Comparison of the Microwave and Conventional Sintering of Alumina: Effect of <scp><scp>MgO</scp></scp> Doping and Particle Size

Zuo, Fei; Carry, C.; Saunier, Sébastien; Marinel, Sylvain; Gœuriot, D.

doi:10.1111/jace.12320

Cited by 45 publications

(26 citation statements)

References 22 publications

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“…Due to the low dielectric loss factor (tanδ) of the materials at low temperature, a SiC ring was used to initiate sample heating up to the temperature where material could adequaly absorb microwave. The same configuration was described by Zuo et al Refractory materials transparent to microwave were used. Because of the electromagnetic field inside the cavity, in situ dilatometric measurement had to be implemented with a contactless and external device to avoid interference and measurement errors.…”

Section: Methodsmentioning

confidence: 99%

In situ study on microwave sintering of ZTA ceramic: Effect of ZrO₂ content on densification, hardness, and toughness

et al. 2016

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Better understanding of the effect of multimode‐microwave sintering of zirconia‐toughened alumina (ZTA) was investigated. A comparative dilatometric analysis was conducted between conventional and microwave heating processes, to clarify the influence of zirconia on the densification of ZTA under electromagnetic field. The thermal gradient on sample measurements indicates the change to the microwave volumetric heating is improved by zirconia which adsorbs microwave energy better, thus acting as a susceptor. The most beneficial effect on microstructure, toughness, and hardness were observed at the optimal zirconia content of 10 vol%. The results with both microwave and conventional sintering illustrate the strengthening effect on the composite by zirconia. Of special interest, multimode microwave sintering creates a finer homogeneous microstructure, with resulting hardness and toughening comparable to those obtained for conventional sintering, as well as improved densification, and at lower cost.

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Section: Methodsmentioning

confidence: 99%

In situ study on microwave sintering of ZTA ceramic: Effect of ZrO₂ content on densification, hardness, and toughness

et al. 2016

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“…As a new heating method, microwave heating technique has attracted the attention of many scholars due to its unique heating behaviours, such as rapid heating, energysaving, environmental protection, efficient and lower synthesis temperature [22][23][24][25]. The microwave heating technique has been applied to prepare metal materials, refractories, ceramics and other materials [26][27][28][29][30]. Thus, Fan et al [31] prepared corundum-mullite lightweight insulation materials by microwave sintering at 1500°C using SiC and AlF 3 aids.…”

Section: Introductionmentioning

confidence: 99%

Preparation of lightweight corundum-mullite thermal insulation materials by microwave sintering

Fan

Wang

et al. 2021

PAC

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Lightweight corundum-mullite thermal insulation materials were successfully prepared by microwave sintering at low temperature. The effects of sintering temperatures, PMMA microspheres and SiC particles on structure and properties of as-prepared corundum-mullite materials were investigated. The SiC became a hot spot under the action of microwave field, and these local high temperature areas promoted the formation and growth of mullite whiskers. The PMMA microspheres were burn out, leaving pores which could provide space for the growth of mullite whiskers. It was found that the optimal sintering temperature was 1400?C and corresponding porosity, density and bending strength of the samples were 71.2%, 0.99 g/cm3 and 3.85MPa, respectively. The thermal conductivity was from 0.201 to 0.313W/(m?K) between 30?C and 950?C. This work demonstrated that lightweight corundum-mullite materials with low density, high porosity, good thermal shock resistance and excellent thermal insulation properties could be successfully prepared by microwave sintering.

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“…Microwave sintering process has demonstrated a high potential for a rapid and volumetric heating of ceramic/metal samples while preserving nanometric or submicronic microstructures . The direct interaction of microwaves with a specimen or tooling opens broad possibilities for direct/hybrid heating configurations and nonconventional modes of sintering, such as microwave flash sintering, which enables the contactless sintering of ceramics or metals in few seconds.…”

Section: Introductionmentioning

confidence: 99%

Microwave sintering of complex shapes: From multiphysics simulation to improvements of process scalability

2018

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The microwave sintering homogeneity of large and complex shape specimens is analyzed. A new approach enabling the fabrication of complex shapes ceramics via 3D printing and microwave sintering is presented. The use of a dental microwave cavity is shown to enable a substantial level of densification of complex shape components while restricting the grain growth. The homogeneity of the processed samples during microwave sintering is studied by an electromagneticthermal-mechanical simulation. The realistic densification behavior, that phenomenologically takes into account the microwave effect, is included in the modeling framework. The simulation indicates the sharp correlation between the microwave field distribution in the cavity, the temperature profile, and the specimen's shape distortion. K E Y W O R D Scomplex shape,

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Comparison of the Microwave and Conventional Sintering of Alumina: Effect of MgO Doping and Particle Size

Cited by 45 publications

References 22 publications

In situ study on microwave sintering of ZTA ceramic: Effect of ZrO₂ content on densification, hardness, and toughness

In situ study on microwave sintering of ZTA ceramic: Effect of ZrO₂ content on densification, hardness, and toughness

Preparation of lightweight corundum-mullite thermal insulation materials by microwave sintering

Microwave sintering of complex shapes: From multiphysics simulation to improvements of process scalability

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Comparison of the Microwave and Conventional Sintering of Alumina: Effect of MgO Doping and Particle Size

Cited by 45 publications

References 22 publications

In situ study on microwave sintering of ZTA ceramic: Effect of ZrO2 content on densification, hardness, and toughness

In situ study on microwave sintering of ZTA ceramic: Effect of ZrO2 content on densification, hardness, and toughness

Preparation of lightweight corundum-mullite thermal insulation materials by microwave sintering

Microwave sintering of complex shapes: From multiphysics simulation to improvements of process scalability

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Product

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In situ study on microwave sintering of ZTA ceramic: Effect of ZrO₂ content on densification, hardness, and toughness

In situ study on microwave sintering of ZTA ceramic: Effect of ZrO₂ content on densification, hardness, and toughness