Response of finite cracks in orthotropic materials due to concentrated impact shear loads

Journal of Applied Mechanics, Transactions ASME

Volumn 66, Issue 2, 1999, Pages 485-491

  Rubio Gonzalez, C ^a   Mason, J J ^a  

^a University of Notre Dame   (United States)

Author keywords

[No Author keywords available]

Indexed keywords

CRACK PROPAGATION; DYNAMIC RESPONSE; EQUATIONS OF MOTION; FOURIER TRANSFORMS; GREEN'S FUNCTION; INTEGRAL EQUATIONS; LAPLACE TRANSFORMS; SHEAR STRESS; STRESS ANALYSIS; STRESS INTENSITY FACTORS;

FREDHOLM INTEGRAL EQUATION; ORTHOTROPIC MATERIALS;

FRACTURE MECHANICS;

EID: 0033148680     PISSN: 00218936     EISSN: 15289036     Source Type: Journal    
DOI: 10.1115/1.2791073     Document Type: Article

References (22)

1. Abou-Sayed, I. S., Burgers, P., and Freund, L. B., 1980, “Stress Intensity Factor Due to the Parallel Impact Loading of the Faces of the Crack,” Fracture Mechanics, 12th Conference ASTM-STP-700, pp. 164-173.
2. Atkinson, K. E., 1997, The Numerical Solution of Integral Equations of the Second Kind, Cambridge University Press, New York.
3. Chen, E. P., and Sih, G. C., 1977, “Transient Response of Cracks to Impact Loads,” Elastodynamic Crack Problems, G. C, Sih, ed., Noordhoff International Publishing. Leyden, The Netherlands.
4. Debnath, L., 1995, Integral Transforms and their Applications, CRC Press, Boca Raton, FL.
5. Chao, C. C., 1960, “Dynamical Response of an Elastic Half-Space Surface Loadings,” ASME Journal of Applied Mechanics, Vol. 27, pp. 559-567.
6. Freund, L. B., 1974, “The Stress Intensity Factor due to Normal Impact Loading on the Faces of a Crack,” Int. J. Engng. Sci Vol. 12, pp. 179-189.
7. Freund, L. B., 1990, Dynamic Fracture Mechanics, Cambridge University Press, New York.
8. Honig, G., and Hirdes, U., 1984, “A Method for the Numerical Inversion of Laplace Transforms,” J. Comp. Appl. Math., Vol. 10, pp. 113-132.
9. Isida, M., 1972, “Data on Crack Tip Stress Intensity Factors,” JSME, Vol. 75, No. 642, pp. 1127-1135.
10. Kassir, M. K., and Bandyopadhyay, K. K., 1983, “Impact Response of a Cracked Orthotropic Medium,” ASME Journal of Applied Mechanics, Vol. 50, pp. 630-636.
11. Lambros, J., and Rosakis, A., 1995, “Shear Dominated Transonic Interfacial Crack Growth in a Bimaterial-I. Experimental Observations,” J. Mech. Phys. Solids, Vol. 43, No. 2, pp. 169-188.
12. Liu, C., Huang, Y., and Rosakis, A., 1995, “Shear Dominated Transonic Interfacial Crack Growth in a Bimaterial-II. Asymptotic Fields and Favorable Velocity Regimes,” J. Mech. Phys. Solids, Vol. 43, No. 2, pp. 189-206.
13. Nayfeh, A. H., 1995, Wave Propagation in Anisotropic Media with Applications to Composites, North-Holland, Amsterdam.
14. Papoulis, A., 1962, The Fourier Integral and Its Applications, McGraw-Hill, New York.
15. Parton, V. Z., and Boriskovsky, V. G., 1989, “Dynamic Fracture Mechanics,” Stationary Cracks, Vol. 1, Hemisphere, New York.
16. Rubio-Gonzalez, C., and Mason, J. J., 1999, "Green’s Functions for the Stress Intensity Factor Evolution in Finite Cracks in Orthotropic Materials,” Int. J. Of Fracture, submitted for publication.
17. Rosakis, A. J., 1998, Plenary Lecture, The US National Congress in Applied Mechanics, Gainesville, FL, June.
18. Schwartz, M. M., 1997, Composite Materials: Properties, Nondestructive Testing and Repair, Vol. 1, Prentice-Hall, Englewood Cliffs, NJ.
19. Shindo, Y., and Nozaki, H., 1986, “Impact Response of a Finite Crack in an Orthotropic Strip,” Acta Mechanica, Vol. 62, pp. 87-104.
20. Shivakumar, K. N., and Crews, J. H., 1998, “Modified Mixed-Mode Bending Test Apparatus for Measuring Delamination Fracture Toughness of Laminates Composites,” J. Composites Materials, to appear.
21. Shukla, A., Singh, R., Lambros, J., and Rosakis, A., 1998, “Investigation of the Mechanics of Intersonic Crack Propagation Along a Bimaterial Interface Using Coherent Gradient Sensing and Photoelasticity,” Proceedings of Royal Society, London, to appear.
22. Sneddon, I. N., 1966, Mixed Boundary Value Problems in Potential Theory, North-Holland, Amsterdam.