Issue 33

M. Vormwald, Frattura ed Integrità Strutturale, 33 (2015) 253-261; DOI: 10.3221/IGF-ESIS.33.31 260 R EFERENCES [1] Hertel, O., Vormwald, M., Short-crack-growth-based fatigue assessment of notched components under multiaxial variable amplitude loading, Engineering Fracture Mechanics, 78 (2011) 1614–1627. [2] Hertel, O., Vormwald, M., Multiaxial fatigue assessment based on a short crack growth concept, Theoretical and Applied Fracture Mechanics, 73 (2014) 17–26. [3] Socie, D.F., Marquis, G.B., Multiaxial Fatigue, SAE Warrendale, ISBN 0-7680-0453-5, (2000). [4] Hoffmeyer, J., Anrisslebensdauervorhersage bei mehrachsiger Beanspruchung auf Basis des Kurzrisskonzepts, Institut für Stahlbau und Werkstoffmechanik, TU Darmstadt, Report 72 (in German), (2005). [5] Hoffmeyer, J., Döring, R., Seeger, T., Vormwald, M., Deformation behaviour, short crack growth and fatigue lives under multiaxial nonproportional loading, Int. J Fatigue, 28 (2006) 508-520. [6] Döring, R., Hoffmeyer, J., Seeger, T., Vormwald, M., Short fatigue crack growth under nonproportional multiaxial elastic-plastic strains, Int. J Fatigue, 28 (2006) 972-982. [7] Socie, D.F., Hua, C., Worthem, D., Mixed mode small crack growth, Fat. Fract. Eng. Mat. Struct., 10(1) (1987) 1-16. [8] Reddy, S., Fatemi, A., Small crack growth in multiaxial fatigue, in: ASTM STP 1122, Advances in Fatigue Lifetime Prediction Techniques, (1992) 276-298. [9] Socie, D.F., Furman, S., Fatigue damage simulation models for multiaxial loading, in: Fatigue 96, 6 th Int. Fatigue Congress, Berlin, (1996) 967-976. [10] de los Rios, E., Hussain, J., Miller, K., A micro-mechanics analysis for short fatigue crack growth, Fat. Fract. Eng. Mat. Struct., 8(1) (1985) 49-63. [11] Zenner, H., Pötter, K., Schram, A., Suhartono, H., Simulation des Mikrorisswachstums unter Schwingbeanspruchung, Materialwiss. u. Werkstofft. , 32 (2001) 845-857. [12] Ahmadi, A., Zenner, H., Düwel, V., Mikrorissentstehung und Mikrorisswachstum in Aluminiumlegierungen bei zyklischer Beanspruchung – werkstoffliche Untersuchung und Simulation, Mat.-wiss. u. Werkstofftech, 33 (2002) 265- 275. [13] Hoshide, T., Socie, D.F., Crack nucleation and growth modelling in biaxial fatigue, Engineering Fracture Mechanics, 29(3) (1988) 287-299. [14] Hoshide, T., Kusuura, T., Life prediction by simulation of crack growth in notched components with different microstructures and under multiaxial fatigue, Fat. Fract. Eng. Mat. Struct., 21(2) (1998) 201-214. [15] McDowell, D.L., A shear stress based critical-plane criterion of multiaxial fatigue failure for design and life prediction, Fat. Fract. Eng. Mat. Struct., 11(12) (1994), 1475-1485. [16] McDowell, D.L., Bennett, V.P., Microcrack growth law for multiaxial fatigue, Fat. Fract. Eng. Mat. Struct., 19(7) (1996) 821-837. [17] McDowell, D.L., Multiaxial small fatigue crack growth in metals, Int. J. Fat., 19 (1997) 127-135. [18] Savaidis, G., Seeger, T., Consideration of multiaxiality in fatigue life prediction using the closure concept, Fat. Fract. Eng. Mat. Struct., 20(7) (1997) 985-1004. [19] Bonnen, J.J.F, Topper, T.H., Experimental determination and modeling of long crack crack-face interference-free crack propagation behavior in normalized SAE 1045 steel, Engineering Fracture Mechanics, 75 (2008) 804-820. [20] Zhang, W., Liu, Y., Investigation of incremental fatigue crack growth mechanisms using in situ SEM testing, Int. J. Fatigue, 42 (2012) 14-23. [21] Lu, Z., Liu, Y., Small time scale fatigue crack growth, Int. J. Fatigue, 32 (2012) 1306-1321. [22] Jiang. Y., Ott, W., Baum, Chr., Vormwald, M., Nowack, H., Fatigue life predictions by integrating EVICD fatigue damage model and an advanced cyclic plasticity theory, Int. J. Plasticity, 25(5) (2009) 780–801. [23] Döring, R., Hoffmeyer, J., Seeger, T., Vormwald, M., A plasticity model for calculating stress-strain sequences under multiaxial nonproportional cyclic loading. Computational Materials Science, 28(3-4) (2003) 587-596. [24] Zerres, P., Vormwald, M., Review of fatigue crack growth under non-proportional mixed-mode loading, Int. J. Fatigue, 58 (2014) 75–83. [25] Köttgen, V.B., Barkey, M.E., Socie, D.F., Pseudo Stress and Pseudo Strain based Approaches to Multiaxial Notch Analysis, Fatigue Fract. Engng. Mater. Struct., 18(9) (1995) 981-1006. [26] Buczynski, A., Glinka, G., An analysis of elasto-plastic strains and stresses in notched bodies subjected to cyclic non- proportional loading paths, Biaxial/Multiaxial Fatigue and Fracture, Elsevier (2003), [27] Hertel, O., Vormwald, M., Seeger, T., Döring, R., Hoffmeyer, J., Notch stress and strain approximation procedures for application with multiaxial nonproportional loading, Materials Testing, 47(5) (2005) 268-277.