Evolution of anisotropy in hierarchical porous ceramics during sinter-forging

Evolution of anisotropy in hierarchical porous ceramics during sinter-forging

When a body is sintered under non-hydrostatic stress (or strain) fields, anisotropic microstructures may develop which would have an impact on the performance of sintered products. In this study, we focus on the development of pore shape anisotropy during sintering forging. Several parameters were u...

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Bibliographic Details
Published in:Journal of the European Ceramic Society Vol. 36; no. 12; pp. 2937 - 2945
Main Authors: Shang, Haixia, Mohanram, Aravind, Olevsky, Eugene, Bordia, Rajendra K.
Format: Journal Article
Language:English
Published: Elsevier Ltd 01-09-2016
Subjects:
Anisotropy
Densification
Grain growth
Porous ceramics
Sinter forging
Densification
Porous ceramics
Grain growth
Sinter forging
Anisotropy
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Summary:When a body is sintered under non-hydrostatic stress (or strain) fields, anisotropic microstructures may develop which would have an impact on the performance of sintered products. In this study, we focus on the development of pore shape anisotropy during sintering forging. Several parameters were used to characterize the anisotropy of both intrinsic (small inter-particle pores) and extrinsic (large pores from the burnout of pore-formers). The effect of applied stress on grain growth was also investigated. As expected during sinter forging, the pore shape becomes anisotropic and the pores orient preferentially. The intrinsic pores preferentially align parallel while the extrinsic pores align perpendicular to the applied stress. For both intrinsic and extrinsic pores, the degree of anisotropy increases with applied stress, reaches a maximum and then decreases with further increase in stress. Applied stress leads to finer grain microstructures at a particular density. Possible explanations are proposed to explain these observations.
ISSN:0955-2219
1873-619X
DOI:10.1016/j.jeurceramsoc.2015.12.042