Tiandan Chen scite author profile

The traditional models of sintering predict a pronounced dependence of densification rate on the scale of the microstructure as measured by the grain size. This study evaluates the grain size exponent for densification during isothermal sintering of an aggregated nanocrystalline zirconia powder, and for a submicrometer alumina powder. The results gave grain size exponents that are much higher than those anticipated for the expected sintering mechanisms. Furthermore, microstructural analysis showed that this overestimate of the exponent could be due to the spatial heterogeneity in the microstructure on the scale of the diffusion distance. To assess this issue, pore boundary tessellation was used to determine a new measurement of effective diffusion distance that takes into account the local spatial arrangement of pores. This measurement gives exponents much closer to those expected for the sintering of tetragonal zirconia by volume diffusion, and for the sintering of the alumina by grain‐boundary diffusion.

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High-temperature deformation behaviour of TiO2-doped 8mol.% Y2O3-stabilized ZrO2 (8Y-CSZ) under tension and compression

Tekeli

Chen

Nagayama

et al. 2007

Ceramics International

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Effect of La on the thermal stability of Pd/γ-Al2O3 catalytic membranes

Chen

et al. 2001

Ceramics International

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Tiandan Chen

Threshold stress superplastic behavior and dislocation activity in a three-phase alumina–zirconia–mullite composite

An Experimental Measurement of Effective Diffusion Distance for the Sintering of Ceramics

High-temperature deformation behaviour of TiO2-doped 8mol.% Y2O3-stabilized ZrO2 (8Y-CSZ) under tension and compression

Effect of La on the thermal stability of Pd/γ-Al2O3 catalytic membranes

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