Effects of preheat-treated aluminosilicate addition on the phase development, microstructure, and mechanical properties of mullitized porous OBSC ceramics

International Journal of Applied Ceramic Technology

Volumn 6, Issue 5, 2009, Pages 617-625

  Liu, Shifeng ^a   Zeng, Yu Ping ^b   Jiang, Dongliang ^b  

^a UNIVERSITY OF CHINESE ACADEMY OF SCIENCES   (China)

^b SHANGHAI INSTITUTE OF CERAMICS   (China)

Author keywords

[No Author keywords available]

Indexed keywords

FLEXURAL STRENGTH; HIGH FLEXURAL STRENGTH; IN-SITU REACTIONS; MULLITIZATION; NECK GROWTH; OPEN POROSITY; OXIDATION DEGREE; PHASE DEVELOPMENT; POROUS SIC; THERMAL SHOCK RESISTANCE;

BENDING STRENGTH; CERAMIC MATERIALS; MECHANICAL PROPERTIES; MICROSTRUCTURE; OXIDATION; SILICON CARBIDE;

ALUMINOSILICATES;

EID: 69949157220     PISSN: 1546542X     EISSN: 17447402     Source Type: Journal    
DOI: 10.1111/j.1744-7402.2008.02300.x     Document Type: Article

References (28)

1. J. W. Brockmayer, J. E. Dore, and L. S. Aubrey, "Ceramic Foam Filter and Process for Preparing Same," U.S. Patent 4,885,263, 1989.
2. E. Passalacqua, S. Freni, and F. Barone, "Alkali Resistance of Tape-Cast SiC Porous Ceramic Membranes," Mater. Lett., 34 [3-6] 257-262 (1998).
3. P. H. Pastila, V. Helanti, A. P. Nikkila, and T. A. Mantyla, "Effect of Crystallization on Creep of Clay Bonded SiC Filters," Ceram. Eng. Sci. Proc., 19 [4] 37-44 (1998).
4. M. A. Alvin, "Impact of Char and Ash Fines on Porous Ceramic Filter Life," Fuel Proc. Technol., 56 [1-2] 143-168 (1998).
5. P. Pastila, V. Helanti, A. P. Nikkila, and T. Mantyla, "Environmental Effects on Microstructure and Strength of SiC-Based Hot Gas Filters," J. Eur. Ceram. Soc., 21 [9] 1261-1268 (2001).
6. M. J. Ledoux, S. Hantzer, C. P. Huu, J. Guille, and M. P. Desaneaux, "New Synthesis and Uses of High-Specific-Surface SiC as a Catalytic Support," J. Catal., 114 [1] 176-185 (1988).
7. M. Benaissa, J. Werckmann, G. Ehret, E. Peschiera, J. Guille, and M. J. Ledoux, "Structural Studies of Active-Carbon Used in the Growth of Silicon-Carbide Catalyst Support," J. Mater. Sci., 29 [18] 4700-4707 (1994).
8. N. Keller, C. Phan-Huu, S. Roy, M. J. Ledoux, C. Estournes, and J. Guille, "Influence of the Preparation Conditions on the Synthesis of High Surface Area SiC for Use as a Heterogeneous Catalyst Support," J. Mater. Sci., 34 [13] 3189-3202 (1999).
9. L. S. Sigl, "Core/Rim Structure of Liquid-Phase-Sintered Silicon Carbide," J. Am. Ceram. Soc., 76 [3] 773-776 (1993).
10. J. H. She, Z. Y. Deng, J. Daniel-Doni, and T. Ohji, "Oxidation Bonding of Porous Silicon Carbide Ceramics," J. Mater. Sci., 37 [17] 3615-3622 (2002).
11. J. H. She, J. F. Yang, N. Kondo, T. Ohji, S. Kanzaki, and Z. Y. Deng, "High-Strength Porous Silicon Carbide Ceramics by an Oxidation-Bonding Technique," J. Am. Ceram. Soc., 85 [11] 2852-2854 (2002).
12. J. H. She, T. Ohji, and Z. Y. Deng, "Thermal Shock Behavior of Porous Silicon Carbide Ceramics," J. Am. Ceram. Soc., 85 [8] 2125-2127 (2002).
13. J. H. She, T. Ohji, and S. Kanzaki, "Oxidation Bonding of Porous Silicon Carbide Ceramics with Synergistic Performance," J. Eur. Ceram. Soc., 24 [2] 331-334 (2004).
14. S. Q. Ding, S. M. Zhu, Y. P. Zeng, and D. L. Jiang, "Fabrication of Mullite-Bonded Porous Silicon Carbide Ceramics by in situ Reaction Bonding," J. Eur. Ceram. Soc., 27 [4] 2095-2102 (2007).
15. W. L. Vaughn and H. G. Maahs, "Active-to-Passive Transition in Oxidation of Silicon Carbide and Silicon Nitride in Air," J. Am. Ceram. Soc., 73 [6] 1540-1543 (1990).
16. D. E. Rosner and H. D. Allendorf, "High Temperature Kinetics of the Oxidation and Nitridation of Pyrolytic Silicon Carbide in Dissociated Gases," J. Phys. Chem., 74 [9] 1829-1838 (1970).
17. L. J. Vandeperre, A. Kristofferson, E. Carlstrom, and W. J. Clegg, "Thermal Shock of Layered Ceramic Structures with Crack-Deflecting Interface," J. Am. Ceram. Soc., 84 [1] 104-110 (2001).
18. 2," J. Am. Ceram. Soc., 55 [10] 525-531 (1972).
19. S. Sundaresan and I. A. Aksay, "Mullitization of Diphasic Aluminosilicate Gels," J. Am. Ceram. Soc., 74 [10] 2388-2392 (1991).
20. M. D. Sacks, Y. J. Lin, G. W. Scheiffele, K. Wang, and N. Bozkurt, "Effect of Seeding on Phase Development, Densification Behavior, and Microstructure Evolution in Mullite Fabricated from Microcomposite Particles," J. Am. Ceram. Soc., 78 [11] 2897-2906 (1995).
21. M. D. Sacks, K. Wang, G. W. Scheiffele, and N. Bozkurt, "Effect of Composition on Mullitization Behavior of α-Alumina/Silica Microcomposite Powders," J. Am. Ceram. Soc., 80 [3] 663-672 (1997).
22. J. C. Huling and G. L. Messing, "Hybrid Gels for Homoepitactic Nucleation of Mullite," J. Am. Ceram. Soc., 72 [9] 1725-1729 (1989).
23. G. Ervin, "Oxidation Behavior of Silicon Carbide," J. Am. Ceram. Soc., 41 [9] 347-352 (1958).
24. P. J. Jorgensen, M. E. Wadsworth, and I. B. Cutler, "Oxidation of Silicon Carbide," J. Am. Ceram. Soc., 42 [12] 613-616 (1959).
25. R. W. Rice, "Comparison of Stress Concentration Versus Minimum Solid Area Based Mechanical Property-Porosity Relations," J. Mater. Sci., 28 [8] 2187-2190 (1993).
26. R. W. Rice, "Evaluating Porosity Parameters for Porosity-Property Relations," J. Am. Ceram. Soc., 76 [7] 1801-1808 (1993).
27. 2 Ceramics Prepared by Gelcasting," Mater. Res. Bull., 42 [12] 2048-2056 (2007).
28. P. Pettersson, Z. J. Shen, M. Johnsson, and M. Nygren, "Thermal Shock Properties of β-Sialon Ceramics," J. Eur. Ceram. Soc., 22 [8] 1357-1365 (2002).