Article ID | Journal | Published Year | Pages | File Type |
---|---|---|---|---|
10666144 | Materials Letters | 2011 | 4 Pages |
Abstract
The stability of bubbles and the microstructures of sintered Si3N4 ceramic foams produced by direct foaming method were investigated. The bubbles produced by short-chain amphiphiles (propyl gallate) have higher stability as compared with that produced by long-chain surfactants (TritonX-114). Si3N4 ceramic foams using short-chain amphiphile are particle-stabilized one, the pore cells are spherical and closed, and cell surfaces are smooth and dense. The pore cells of sintered Si3N4 ceramic foams using TritonX-114 foaming are coarse and large, and pore cells are polyhedral. High gas-pressure sintering is conducive to the development of the whisker-like microstructures in Si3N4 ceramic foams. The sintered Si3N4 ceramic foams with the whisker-like microstructure are quite promising for improving the mechanical strength of the ceramics by a simple and safe way.
Related Topics
Physical Sciences and Engineering
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Nanotechnology
Authors
Juanli Yu, Jinlong Yang, Hexin Li, Xiaoqing Xi, Yong Huang,