Starch consolidation of porous fused silica ceramics
คำสำคัญ:
Porous ceramics, Fused silica, Glutinous rice flour, Starch consolidationบทคัดย่อ
Starch consolidation is a forming technique, in which ceramic suspension is consolidated by gelatinization of starch under suitable temperature. This technique is promising for fabricating porous ceramics because starch can act as a binder as well as a pore former. In this study, porous fused silica ceramics were prepared by starch consolidation using glutinous rice flour as a gelling agent. The 29 vol% solid loading of fused silica slurries with the addition of glutinous rice flour were prepared. After mixing the slurries were poured into a plastic mold and kept in an oven at 75ºC for an hour. The green samples were dried and sintered at a temperature range of 900-1300ºC for an hour. Bulk density and compressive strength of the fused silica ceramics with 7 wt% glutinous rice flour sintered at 1150ºC were 1.26 g/cm3 and 13.33 MPa, respectively. The phase of the sintered specimens remained amorphous with very low thermal expansion coefficient of 0.58 x 10-6ºC-1.Downloads
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H. M. Alves, G. Tarı̀, A. T. Fonseca, and J. M. F. Ferreira, "Processing of porous cordierite bodies by starch consolidation," Materials Research Bulletin, vol. 33, pp. 1439-1448, 1998.
H. Xu, J. Liu, H. Du, A. Guo, and Z. Hou, "Preparation of porous silica ceramics with relatively high strength by a TBA-based gelcasting method," Chemical Engineering Journal, vol. 183, pp. 504-509, 2012.
F. Zhang, C. X. Qi, S. Wang, J. Liu, and H. Cao, "A study on preparation of cordierite gradient pores porous ceramics from rectorite," Solid State Sciences, vol. 13, pp. 929-933, 2011.
R. Roy, D. K. Agrawal, and H. A. McKinstry, "Very low thermal expansion coefficient materials," Annual Review of Materials Science, vol. 19, pp. 59-81, 1989.
J. Y. Niu, Z. W. Chen, L. Feng, Z. M. Li, and M. Tan, "Preparation and Characterization of Fused Silica Micro-Powders and Ceramics," in Advanced Materials Research, Trans Tech Publ, 2012, pp. 129-132.
R. M. Matsuda, A. V. Gubarevich, H. Wada, and O. Odawara, "Effect of sintering temperature on the characteristics of ceramic hollow spheres produced by sacrificial template technique," Ceramics International, vol. 42, pp. 8409-8412, 2016.
S. Mishra, R. Mitra, and M. Vijayakumar, "Structure–property correlation in cellular silica processed through hydrophobized fused silica powder for aerospace application," Journal of Alloys and Compounds, vol. 504, pp. 76-82, 2010.
J. Verma, M. Vijayakumar, and R. Mitra, "Processing and microstructure of freeze-cast silica foams," Materials Letters, vol. 153, pp. 168-170, 2015.
P. Tabrizian, F. Golestanifard, A. Alem, and E. Ghassemi, "The influence of gel-casting parameters on the preparation of Si porous bodies," Materials Letters, vol. 183, pp. 19- 22, 2016.
Y. Hu, Z. Wang, and J. Lu, "Study on the gel casting of fused silica glass," Journal of NonCrystalline Solids, vol. 354, pp. 1285-1289, 2008.
O. Lyckfeldt and J. M. F. Ferreira, "Processing of porous ceramics by ‘starch consolidation’," Journal of the European Ceramic Society, vol. 18, pp. 131-140, 1998.
M. H. Talou, M. A. Villar, M. A. Camerucci, and R. Moreno, "Rheology of aqueous mullite–starch suspensions," Journal of the European Ceramic Society, vol. 31, pp. 1563-1571, 2011.
J. L. Minatti, J. G. A. Santana, R. S. Fernandes, and E. Campos, "Alumina developed by pregelling starch consolidation (PSC)," Journal of the European Ceramic Society, vol. 29, pp. 661- 668, 2009.
C. Ju, Y. Wang, J. Ye, and Y. Huang, "Modified-starch consolidation of alumina ceramics," Journal of Wuhan University of Technology Materials Science Edition, vol. 23, pp. 558-561, 2008.
R. M. Khattab, M. M. S. Wahsh, and N. M. Khalil, "Preparation and characterization of porous alumina ceramics through starch consolidation casting technique," Ceramics International, vol. 38, pp. 4723-4728, 2012.
D. R. Dinger, Rheology for Ceramists, 2 nd ed. C B Dinger, Publishers., 2010.
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