Fatigue Life Prediction in Aluminum Alloy 2618-T6 Using a Paris Law Modification
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C. Pinna | M. Brown | M. Guerrero-Mata | M. Morales | D. F. Ledezma-Ramirez | A. Salas-Zamarripa | D. Ledezma-Ramírez
[1] C. Pinna,et al. Identification of modes of fracture in a 2618-T6 aluminum alloy using stereophotogrammetry , 2011 .
[2] Paris,et al. FRACTURE MECHANICS AND FATIGUE: A HISTORICAL PERSPECTIVE , 2008 .
[3] F. Yin,et al. Influence of deformation ageing treatment on microstructure and properties of aluminum alloy 2618 , 2008 .
[4] C. Gandin,et al. Modeling of precipitate-free zone formed upon homogenization in a multi-component alloy , 2007 .
[5] A. Deschamps,et al. Characterisation of precipitation microstructures in aluminium alloys 7040 and 7050 and their relationship to mechanical behaviour , 2004 .
[6] A. Deschamps,et al. Grain boundary versus transgranular ductile failure , 2003 .
[7] J. Hosson,et al. On the effects of thermomechanical processing on failure mode in precipitation-hardened aluminium alloys , 2002 .
[8] R. Faulkner,et al. Modelling of grain boundary segregation, precipitation and precipitate-free zones of high strength aluminium alloys-II. Application of the models , 1996 .
[9] R. Faulkner,et al. Modelling of grain boundary segregation, precipitation and precipitate-free zones of high strength aluminium alloys—I. The model , 1996 .
[10] S. Suresh. Fatigue of materials , 1991 .
[11] O. Bilir,et al. Effect of stress ratio on the rate of growth of fatigue cracks in 1100 Al-alloy , 1990 .
[12] C. Bathias. Application of fracture mechanics to aluminum alloys selection , 1978 .