Issue 37

Y. Hos et alii, Frattura ed Integrità Strutturale, 37 (2016) 234-240; DOI: 10.3221/IGF-ESIS.37.31 240 [20] Hos Y, Vormwald M., Experimental study of crack growth under non-proportional loading along with first modeling attempts, Int J Fatigue (2016) (in press). [21] Zerres, P., Brüning, J., Vormwald, M., Risswachstumsverhalten der Aluminiumlegierung ALMg4.5Mn unter proportionaler und nichtproportionaler Schwingbelastung, Mater. Test., 53 (2011) 109-117. [22] Zerres, P., Brüning, J., Vormwald, M., Fatigue crack growth behavior of fine-grained steel S460N under proportional and non-proportional loading, Eng. Fract. Mech., 77 (2011) 1822-1834. [23] Hos, Y., Vormwald, M., Freire, J.L.F., Using digital image correlation to determine mixed mode stress intensity factors in fatigue cracks, Proceedings of COTEQ 2015, Conference on Technology of Equipment, organized by ABENDI, Brazilian Society for NDT and Inspection, June, 2015. [24] Vormwald, M., Fatigue Crack Propagation under Large Cyclic Plastic Strain Conditions, Procedia Mater. Sc. 3 (2014) 301- 306 [25] Vormwald, M., Hos, Y., Freire, J.L.F., Measurement and simulation of strain fields around crack tips under mixed-mode fatigue loading, Frattura ed Integrita Strutturale, 33 (2015) 42-55. [26] Hos, Y., Vormwald, M., Measurement and simulation of crack growth rate and direction under non-proportional loadings, Frattura ed Integrita Strutturale, 34 (2015) 133-141.