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A Study on the Improvement of Fatigue Strength in Particulate Reinforced Metal Matrix Composites at Elevated Temperatures
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 Title & Authors
A Study on the Improvement of Fatigue Strength in Particulate Reinforced Metal Matrix Composites at Elevated Temperatures
Sin, Hyeong-Seop;
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 Abstract
Fatigue strength of NiAl and NiAl particulate reinforced aluminum alloy composites fabricated by the diecasting method was examined at room and elevated temperatures. The results were compared wit h that of SiC particulate reinforced one. The particulate reinforced composites showed some improvement in the static and fatigue strength at elevated temperatures when compared with that of Al alloy. The composites reinforced by intermetallic compound particles showed good fatigue strengths at elevated temperatures especially alloy composite showed good fatigue limit up to high temperature of 30. Adopting intermetallic compound particle as a reinforcement phase, it will be possible to develop MMC representing better fatigue property at elevated temperature.
 Keywords
Particulate Reinforced Composite;Fatigue Strength;Intermetallic Compound;Diecasting;Interface Property;Elevated Temperature;
 Language
Korean
 Cited by
 References
1.
Clyne, T. W. and Withers, P. J, 1993, An Introduction to Metal Matrix Composites, Cambridge University Press

2.
Harrigan, Jr. W. C, 1991, 'Metal Matric Composites,' Everett, R. K. and Arenault, R. J. Ed., Metal Matrix Composites; Processing and Interfaces, Treatise Mater. Sci. Tech., Vol. 32, pp. 1-16

3.
권재도, 문윤배, 김상태, 1995, 'SiC입자보강 Al복합재료의 피로균열진전거동,' 대한기계학회 논문집, 제19권, 제l호, pp. 121-131

4.
Nair, S. V., Tien J. K. and Bates R. C, 1985, 'SiC-Reinforced Aluminum Metal Matrix Composites,' Int. Metall. Rev., Vol. 30, pp. 275-290

5.
Rohatgi, P., 1991, 'Cast Aluminum-Matrix Composites for Automotive Applications', J. Minerals, Vol. 43, No. 4, pp. 10-15

6.
서영호, 강충길, 1996, '용탕제조법에 의하여 제조된 $SiC_p$/Al 복합재료의 2차성형가공이 기계적성질에 미치는 영향,' 대한기계학회논문집(A), 제20권, 제11호, pp. 3474-3490

7.
Omura, H., Miyoshi, T., Takahashi, Y., Conley, J. and Yodogawa, M., 1989, 'The Development of Die Cast Metal Matrix Composites for Tribological Applications,' MRS Int'l Mtg. on Adv. Mats. Vol. 4, pp. 41-46

8.
Omura, H., Miyoshi, T., Takahashi, Y., Conley, J. G. and Yodogawa, M., 1988, 'Dispersion of NiAl Intermetallic Compound and $Si_3N_4$ in Die Castings for Increased Wear Resistance,' Kim, Y. W. and Griffith, W. M. Ed., in Dispersion Strengthened Aluminum Alloys, MMCS, pp. 421-435

9.
Bonnen, J. J., Allison, J. E. and Jones, J. W., 1991, 'Fatigue Behavior of a 2xxx Series Aluminum Alloy Reinforced with 15 vol Pet $SiC_p$,' Met. Trans. Vol. 22A, pp. 1007-1019 crossref(new window)

10.
서동우, 권동일, 이성학, 1996, '주조 A356 $Al-SiC_p$ 복합재료의 파괴인성 해석연구,' 대한금속학회지, 제35권, pp. 7-13

11.
양유창, 송정일, 봉하동, 한경섭, 1995, '단섬유강화 금속복합재료의 반복적 변형 및 피로특 성,' 대한기계학회논문집, 제19권, 제6호, pp. 1422-1430

12.
Hadianfard, M. J., Healy, J. and Mai, Y. W., 1994, 'The Influence of Temperature on the Mechanical and Fracture Properties of a 20 vol% Ceramic Particulate-Reinforced Aluminium Matrix Composite,' J. Mater. Sci., Vol. 29, pp. 3906-.3912 crossref(new window)

13.
Karayaku, M. and Sehitoglu, H., 1991, 'Thermomechanical Fatigue of Particulate-Reinforced Aluminum 2xxx-T4,' Metall. Trans., Vol. 22A, pp. 697-707

14.
Zhao, D., Tuler, F. R. and Lloyd, D. J., 1994, 'Fracture at Elevated Temperatures in a Particle Reinforced Composite,' Acta, Metall. Mater., Vol. 42, pp. 2525-2533 crossref(new window)

15.
Smith, H. H., Michel, D. J. and Reed, J. R., 1989, 'Fatigue Crack Propagation in Rapidly Solidified Aluminum Alloys at $25^{circ}C$ and $300^{circ}C$,' Metal. Trans., Vol. 20A, pp. 2425-2430

16.
Healy, J. C. and Beevers, C. J., 1984, 'A Study of Fatigue Crack Growth in a Particulate-Reinforced Al-Si Alloy at $23^{circ}C$ and $220^{circ}C$,' Mater. Sci. Eng., Vol. A142, pp. 183-192

17.
Chen, R. and Zhang, G., 1993, 'Casting Defects and Properties of Cast A356 Aluminum Alloy Reinforced with SiC Particles,' Composite Sci. Tech., Vol. 47, pp. 51-56

18.
Breok, D., 1986, Elementary Engineering Fracture Mechanics, 4th ed., Martinus Nijhoff Publishers, p.509