Fracture toughness of a crystalline silicon carbide fiber (tyranno-SA3®)

Journal of the American Ceramic Society

Volumn 89, Issue 8, 2006, Pages 2571-2576

  Morishita, Kohei ^a   Ochiai, Shojiro ^a,d   Okuda, Hiroshi ^a   Inshikawa, Toshihiro ^b   Sato, Mitsuhiko ^b   Inoue, Tadanobu ^c  

^a KYOTO UNIVERSITY   (Japan)

^b UBE INDUSTRIES LTD   (Japan)

^c NATIONAL INSTITUTE FOR MATERIALS SCIENCE   (Japan)

^d AMERICAN CERAMIC SOCIETY   (United States)

Author keywords

[No Author keywords available]

Indexed keywords

FIBER DIAMETER; NOTCH SIZE; STRESS INTENSITY FACTOR;

CRYSTALLINE MATERIALS; FINITE ELEMENT METHOD; FRACTURE TOUGHNESS; STRESS INTENSITY FACTORS;

SILICON CARBIDE;

EID: 33745964843     PISSN: 00027820     EISSN: 15512916     Source Type: Journal    
DOI: 10.1111/j.1551-2916.2006.01116.x     Document Type: Article

References (42)

1. A. G. Evans, "Fracture Mechanics Determinations"; p. 17 in Fracture Mechanic's of Ceramics, Vol. 1, Edited by R. C. Bradt, D. P. H. Hasselman, and F. F. Lange. Plenum Press, New York, 1974.
2. 4" J. Am. Ceram. Soc:., 58 [3-4] 113-6 (1975).
3. ASTM Standard Test Method C1421, Standard Text Methods for Determination of Fracture Toughness of Advanced Ceramics at Ambient Temperature. American Society for Testing and Materials, USA, 2002.
4. S. M. Dong, G. Chollon, C. Labrugre, M. Lahaye, A. Guette, J. L. Bruneel, M. Couzi, R. Naslain, and D. L. Jiang, "Characterization of Nearly Stoichiometric SiC Ceramic Fibres," J. Mater. Sci., 36 [10] 2371-81 (2001).
5. K. Kumagawa, H. Yamaoka, M. Shibuya, and T. Yamamura, "Thermal Stability and Chemical Corrosion Resistance of Newly Developed Continuous Si-Zr-C-O Tyranno Fiber"; pp. 113-8 in Proceedings of the 21st Annual Conference on Composites, Advanced Ceramics, Materials, and Structures-A, Vol. 18. Ceramic Engineering & Science Proceedings, Edited by J. P. Singh. The American Ceramic Society, Cocoa Beach, FL, 1997.
6. W. Yang, H. Araki, A. Kohyama, J. Yu, and T. Noda, "New Tyranno-SA Fiber Reinforced CVI-SiC/SiC Composite," J. Mater. Sci. Lett., 21 [18] 1411-3 (2002).
7. A. R. Bunsell and M. H. Berger, "Fine Diameter Ceramic Fibres," J. Eur. Ceram. Soc., 20 [13] 2249-60 (2000).
8. K. Honjo, "Fracture Toughness of PAN-Based Carbon Fibers Estimated from Strength-Mirror Size Relation," Carbon, 41 [5] 979-84 (2003).
9. C. Sauder, J. Lamon, and R. Pailler, "The Tensile Behavior of Carbon Fibers at High Temperatures up to 2400°C," Carbon, 42 [4] 715-25 (2004).
10. T. Morimoto, "A Representative Diameter for the Weibull Scaling of Variable Diameter Monofilament Strength," Composites Part A, 34 [7] 597-601 (2003).
11. G. E. Youngblood, C. R. Eiholzer, C. A. Lewinsohn, R. H. Jones, A. Hasegawa, and A. Kohyama. "Fiber Diameter Variation/Sample Preparation and Analysis Techniques," Ceram. Eng. Sci. Proc., 20 [3] 481-6 (1999).
12. Y. T. Zhu, S. T. Taylor, M. G. Stout, D. P. Butt, W. R. Blumenthal, and T. C. Lowe, "On the Statistical Strength of Nicalon Fibers and Its Characterization," Ceram. Eng. Sci. Proc., 18 [3] 119-26 (1997).
13. K. Jakus, J. E. Ritter, S. R. Choi, T. Lardner, and B. R. Lawn, "Failure of Fused Silica Fibers with Subthreshold Flaws," J. Non-Cryst. Solids, 102, 82-7 (1988).
14. S. R. Choi, J. E. Ritter, and K. Jakus, "Failure of Glass with Subthreshold Flaws," J. Am. Ceram. Soc., 73 [2] 268-74 (1990).
15. A. Kelly and N. H. Macmillan, Strong Solids. Clarendon Press, Oxford, 1986.
16. M. Kondo, Y. Imai, H. Tezuka, and A. Kohyama, "Fracture Strength of PCS-SiC Fibers Extracted from Metal Matrix Composite-Effects of Surface-Defects and a New Evaluation Method," Tetsu-to-Hagané-J. Iron Steel Inst. Jpn., 75 [9] 1463-9 (1989).
17. M. D. Thouless, O. Sbaizero, L. S. Sigl, and A. G. Evans, "Effect of Interface Mechanical Properties on Pullout in a SiC-Fiber-Reinforced Lithium Aluminum Silicate Glass-Ceramic," J. Am. Ceram. Soc., 72 [4] 525-32 (1989).
18. K. Matsunaga, S. Ochiai, K. Osamura, Y. Waku, and T. Yamamura, "Influence of Heat-Treatment on Mechanical Property of Si-Ti-C-O Fiber-Reinforced Aluminum Matrix Composite," J. Jpn. Inst. Met., 57 [9] 1035-40 (1993).
19. I. J. Davies and T. Ishikawa, "Estimation of the Fracture Toughness of Tyranno® Si-Ti-C-O Fibres from Flaw Size and 'Fracture Mirror' Data Measured in situ a 3-D Woven SiC/SiC Composite," Int. J. Mater. Prod. Technol., 16 [1-3] 189-96 (2001).
20. S. Q. Guo, Y. Kagawa, Y. Tanaka, and C. Masuda, "Microstructure and Role of Outermost Coating for Tensile Strength of SiC Fiber," Acta Mater., 46 [14] 4941-54 (1998).
21. G. E. Youngblood, C. Lewinsohn, R. H. Jones, and A. Kohyama. "Tensile Strength and Fracture Surface Characterization of Hi-Nicalon SiC Fibers," J. Nucl. Mater., 289 [1-2] 1-9 (2001).
22. 2 Composite Due to Interfacial Reaction," Metall. Mater. Trans. A, 30 [A] 2713-20 (1999).
23. T. Ishikawa, Y. Kohtoku, K. Kumagawa, T. Yamamura, and T. Nagasawa, "High-Strength Alkali-Resistent Sintered SiC Fibre Stable to 2,200°C," Nature, 391 [19] 773-5 (1998).
24. J. Lipowitz, J. A. Rabe, A. Zangvil, and Y. Xu, "Structure and Properties of Sylramic™ Silicon Carbide Fiber-A Polycrystalline, Stoichiometric B-SiC Composition," Ceram. Eng. Sci. Proc., 18 [3] 147-60 (1997).
25. H. Nakayama, K. Morishita, S. Ochiai, T. Sekigawa, K. Aoyama, T. Oi, M. Yamamoto, K. Okamura. and M. Sato, "Quest and Evaluation of Topcoat Materials for Environmental Barrier Coatings of SiC/SiC Composites," Key Eng. Mater., 317-18, 549-52 (2004).
26. R. Naslain and F. Christin, "SiC-Matrix Composite Materials for Advanced Jet Engines," MRS Bull., 28 [9] 654-8 (2003).
27. A. Kohyama, K. Abe, A. Kimura, T. Muroga, and S. Jitsukawa, "Recent Accomplishments and Future Prospects of Materials R & D in Japan," Fusion Sci. Technol., 47 [4] 836-43 (2005).
28. M. Havel and P. Colomban, "Rayleigh and Raman Images of the Bulk/Surface Nanostructure of SiC Based Fibres," Composites Part B, 35 [2] 139-47 (2004).
29. H. M. Yun and J. A. DiCarlo, "Comparison of the Tensile, Creep, and Rupture Strength Properties of Stoichiometric SiC Fibers," Ceram. Eng. Sci. Proc., 20 [3] 259-72 (1999).
30. T. Ishikawa, "Advances in Inorganic Fibers," Adv. Polym. Sci., 178, 109-44 (2005).
31. T. Ishikawa, M. Sato, S. Kajii, Y. Tanaka, and M. Suzuki, "A Thermally Conductive SiC-Polycrystalline Fiber and its Fiber-Bonded Ceramic"; pp. 471-80 in Proceedings of the 25th Annual Conference on Composites, Advanced Ceramics, Materials, and structures-A, Vol. 22. Ceramic Engineering & Science Proceedings, Edited by M. Singh and T. Jessen. The American Ceramic Society, Cocoa Beach, FL, 2001.
32. T. Ishikawa, "Perspective of Thermostructural Materials Along with Ceramic Fibers Usable to Ultrahigh Temperatures," J. Jpn. Weld. Soc., 72 [8] 626-30 (2003).
33. O. E. K. Daoud, D. J. Cartwrite, and M. Carney, "Strain-Energy Release Rate for a Single-Edge-Cracked Circular Bar in Tension," J. Strain Anal. Eng., 13 [2] 83-9 (1978).
34. A. J. Bush, "Stress Intensity Factors for Single-Edge-Crack Solid and Hollow Round Bars Loaded in Tension," J. Test. Eval., 9 [4] 216-23 (1981).
35. A. Carpinteri, "Stress Intensity Factors for Straight-Fronted Edge Cracks in Round Bars," Eng. Fract. Mech., 42 [6] 1035-40 (1992).
36. C. S. Shin and C. Q. Cai, "Experimental and Finite Element Analyses on Stress Intensity Factors of an Elliptical Surface Crack in a Circular Shaft Under Tension and Bending," Int. J. Fract., 129 [3] 239-64 (2004).
37. D. G. Clerc, "Ab Initio Elastic Properties of Diamond-Like Materials: Electronic Factors that Determine a High Bulk Modulus," J. Phys. Chem. Sol., 60 [1] 103-10 (1999).
38. C. J. Shih, M. A. Meyers, V. F. Neslerenko, and S. J. Chen, "Damage Evolution in Dynamic Deformation of Silicon Carbide," Acta Mater., 48 [9] 2399-420 (2000).
39. D. Tromans and J. A. Meech, "Fracture Toughness and Surface Energies of Covalent Minerals Theoretical Estimates," Miner. Eng., 17 [1] 1-15 (2004).
40. M. Dutta, G. Bruno, L. Edwards, and M. E. Filzpatrick, "Neutron Diffraction Measurement of the Internal Stresses Following Heat Treatment of a Plastically Deformed Al/SiC Paniculate Metal-Matrix Composite," Acta Mater., 52 [13] 3881-8 (2004).
41. D. Broek, Elementary Engineering Fracture Mechanics. Sijthoff and Noordh-off International Publishers, Alphen aan den Rijn, the Netherlands, 1978.
42. S. Ochiai, M. Hojo, and M. Tanaka, "Mechanical Interactions Between Fiber and Cracked Coating Layer and Their Influences on Fiber Strength," Composites Part A, 30 [4] 451-61 (1999).