Fatigue Crack Growth Estimation in 3D Stress Fields

Clark, T., Woodley, R., De Halas, D., 1962. Gas-Graphite Systems, in “Nuclear Graphite”. In: Nightingale, R. (Ed.). Academic Press, New York, pp. 387. Murakami, Y. Stress Intensity Factors Handbook, ed. Y. Murakami (Pergamon Press, 1987). Sih, G.C. Handbook of Stress Intensity Factors (Institute of Fracture and Solid Mechanics, Lehigh University, Bethlehem, Pennsylvania, 1973). Rooke, D.P. and Cartwright, D.J. Compendium of Stress Intensity Factors (Her Majesty Stationary Office, 1976). British Standards, Guide to methods for assessing the acceptability of flaws in metallic structures, BS 7910:2005. BSI 2007. Broek, D. Elementary Engineering Fracture Mechanics (Martinus Nijhoff Publishers, 1984). Paris, P.C: and Sih, G.C. “Stress Analysis of Cracks,” Fracture Toughness Testing, ASTM STP-381 (American Society for Testing and Materials, 1965) pp. 30-81. Liebowitz, “Fracture Mechanics of Aircraft Structures”, Three Dimensional Crack Problems, ed. Liebowitz, AGARD-AG-176. Kassir, M.K. and Sih, G.C. Three Dimensional Crack Problems (Noordhoff Int. Publ., 1975). Cherepanov, G.P. Mechanics of Brittle Fracture (McGraw-Hill Int. Book Comp., 1979). Smith, R.A. Fracture Mechanics (Pergamon Press, 1979). Shah R.C. and Kobayashi, A.S . Engineering Fracture Mechanics, 3, 71-96 (1971). Smith F.W. and Sorensen, D.R. Journal of Applied Mechanics, 41, 502-506 (1974). Vijayakumar K. and Atluri, S.N. Journal of Applied Mechanics, 48, 88-96 (1981). Oore M.and Burns, D.J. Journal of Pressure Vessel Technology, 102, 202-211 (1980). Newman J.C. and Raju, I.S. “Stress-intensity factor equations for cracks in three-dimensional finite bodies subjected to tension and bending loads,” Computational Methods in the Mechanics of Fracture, ed. S.N. Atluri (Elsevier Science Publishers B.V., 1986) pp. 311-334. Martín-Meizoso, A. and Martínez-Esnaola, J.M. Anales de Mecánica de la Fractura 30, 229-234 (2013).