Dealing with sharp V-shaped notches, some recent papers have discussed the possibility of using the strain energy averaged over an ad hoc control volume to predict the static strength of material with a brittle or quasi-brittle behavior as well as the fatigue behavior of welded joints. This approach is applied here to components weakened by cracks and blunt V-shaped notches. As a result, Kitagawa and Atzori's diagrams reported in the literature to summarise fatigue limit of cracked and notched components are immediately derived, leading to a natural transition between the Linear Elastic Fracture Mechanics and the Linear Notch Mechanics.
From Neuber's Elementary Volume to Kitagawa and Atzori's Diagrams: An Interpretation Based on Local Energy / Lazzarin, P.; Berto, F.. - In: INTERNATIONAL JOURNAL OF FRACTURE. - ISSN 0376-9429. - 135:1-4(2005). [10.1007/s10704-005-4393-x]
From Neuber's Elementary Volume to Kitagawa and Atzori's Diagrams: An Interpretation Based on Local Energy
F. Berto
2005
Abstract
Dealing with sharp V-shaped notches, some recent papers have discussed the possibility of using the strain energy averaged over an ad hoc control volume to predict the static strength of material with a brittle or quasi-brittle behavior as well as the fatigue behavior of welded joints. This approach is applied here to components weakened by cracks and blunt V-shaped notches. As a result, Kitagawa and Atzori's diagrams reported in the literature to summarise fatigue limit of cracked and notched components are immediately derived, leading to a natural transition between the Linear Elastic Fracture Mechanics and the Linear Notch Mechanics.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
