Issue 35

R.A. Cardoso et alii, Frattura ed Integrità Strutturale, 35 (2016) 405-413; DOI: 10.3221/IGF-ESIS.35.46 413 [7] Giner, E., Sabsabi, M., Ródeans, J., Fuenmayor, J.F., Direction of crack propagation in a complete contact fretting- fatigue, Int J Fatigue, 58 (2014) 172-180. [8] Erdogan, F., Sih, G.C., On the crack extension in plates under plane loading transverse shear, J Basic Eng, 85 (1963) 519-27. [9] Sih, G.C., Strain-energy-density factor applied to mixed mode crack problems, Int J Fract, 10(3) (1972) 305-321. [10] Palaniswamy, K., Knauss, W.G., Propagation of a crack under general, in-plane tension, In J Fract,8(1) (1972) 114- 117. [11] Ribeaucourt, R., Baietto-Dubourg, M.C., Gravouil, A., A new fa-tigue frictional contact crack propagation model with the coupled X-FEM/LATIN method, Comput Methods Appl Mech Eng, 196 (2007) 3230–3247. [12] Hourlier, F., Pineau, A., Fatigue crack path behavior under complex mode loading. In: Francois D, editors. Advances in fracture research, Proc 5th Int Conference on Fracture. Pergamon, Oxford; (1981) 1841-1849. [13] Amestoy, M., Bui, H.-D., Dang, Van K., Déviation infinités d’une fissure dans une direction arbitraire. CR Acad Sci Paris, 289B (1979) 99-102. [14] Fouvry, S., Nowell, D., Nubiak, K., Hills, D.A., Prediction of fretting crack propagation based on a short crack methodology, Engineering Fracture Mechanics, 75 (2008) 1605-1622. [15] Baietto, M.C., Pierres, E., Gravouil, A., Berhtel, B., Fouvy, S., Trolle, B., Fretting fatigue crack growth simulation based on a combined experimental and XFEM strategy, Int J Fatigue, 47 (2013) 31-43. [16] Proudhon, H., Fouvy, S., Determination and prediction of the fretting crack initiation: introduction of the (P,Q,N) representation of a variation process volume, Int J Fatigue, 28 (2005) 707-713. [17] Susmel, L., Atzori, B., Meneghetti, G., Material fatigue properties for assessing mechanical components weakened by notches and defects, Fatigue Fract Engng Mater Struct, 28 (2005) 1-15.