PSI - Issue 39

R. Yarullin et al. / Procedia Structural Integrity 39 (2022) 364–378 Author name / Structural Integrity Procedia 00 (2021) 000–000

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K eq or by implementing an Elastic-plastic fracture mechanics (EPFM) analysis procedure for those cases where higher crack tip plastic zone sizes are obtained. Acknowledgements The authors gratefully acknowledge the financial support of the Russian Science Foundation under the Project 19 79-10160. References Giannella V., Perrella M., Citarella R., 2017. Efficient FEM-DBEM coupled approach for crack propagation simulations, Theoretical and Applied Fracture Mechanics, 91, 76-85. Richard, H.A., Schramm, B., Schirmeisen, N.-H., 2014. Cracks on Mixed Mode loading – Theories, experiments, simulations. International Journal of Fatigue 62, 93–103. Martins R., Ferreira L., Reis L., Chambel P., 2016. Fatigue crack growth under cyclic torsional loading. Theoretical and Applied Fracture Mechanics 85, 56–66. Pook, L.P., 2015. The linear elastic analysis of cracked bodies and crack paths. Theor. Appl. Fract. Mech. 79, 34–50. Richard, H., Fulland M., Sander M., 2004. Theoretical crack path prediction. Fatigue Fract. Eng. Mater. Struct. 28, 3–12. Köster P., Benz C., Heyer H., Sander M., 2020. In-phase and out-of-phase mixed mode loading: Investigation of fatigue crack growth in SEN specimen due to tension–compression and torsional loading. Theoretical and Applied Fracture Mechanics 108, 102586. Ayhan A., Demir O., 2021. Computational modeling of three-dimensional mixed mode-I/II/III fatigue crack growth problems and experiments. Computers and Structures 243, 106399. Yang, F.P., Kuang, Z.B., Shlyannikov, V.N., 2006. Fatigue crack growth for straight-fronted edge crack in a round bar. Int. J. Fatigue 28, 431–437. Fonte, M., Reis, L., Romeiro, F., Li, B., Freitas, M., 2006. The effect of steady torsion on fatigue crack growth in shafts. International Journal of Fatigue 28, 609–617. Citarella R., Giannella V., Lepore M., Dhondt G., 2018, Dual boundary element method and finite element method for mixed-mode crack propagation simulations in a cracked hollow shaft, Fatigue Fract Eng Mater Struct., 41, 84-98. Citarella, R., Lepore, M., Shlyannikov, V., Yarullin, R., 2014. Fatigue surface crack growth in cylindrical specimen under combined loading. Engineering Fracture Mechanics 131, 439–453. Poczklán, L., Mazánová, V., Gamanov, Š., Kruml, T., 2019. Fatigue crack growth in axial, torsional and multiaxial mode in 316L austenitic steel. Procedia Structural Integrity 23, 269–274. Geng, M., Chen, H., Yang, Y., Li, Y., 2020. Prediction of crack shape in a cylindrical bar under combined fatigue tension and torsion loading. Theoretical and Applied Fracture Mechanics 109, 102727. Fatemi A., Gates N., Socie D., Phan N., 2014. Fatigue crack growth behaviour of tubular aluminium specimens with a circular hole under axial and torsion loadings. Engineering Fracture Mechanics 123, 137–147. Citarella, R., Sepe, R., Giannella, V., Ishtyryakov, I., 2016. Multiaxial Fatigue Crack Propagation of an Edge Crack in a Cylindrical Specimen Undergoing Combined Tension-Torsion Loading. Procedia Structural Integrity 2, 2706-2717. Lepore, M., Yarullin, R., Maligno, A., Sepe, R., 2018. A computational strategy for damage ‐ tolerant design of hollow shafts under mixed ‐ mode loading condition. Fatigue Fract. Eng. Mater. Struct., 1–12. Kikuchi, M., Wada, Y., Suga, K., 2011. Surface crack growth simulation under mixed mode cyclic loading condition. Procedia Engineering 10, 427–432. Shahani, A., Habibi, S., 2007. Stress intensity factors in a hollow cylinder containing a circumferential semi-elliptical crack subjected to combined loading. International Journal of Fatigue 29, 128–140. Predan, J., Mocˇilnik , V., Gubeljak, N., 2013. Stress intensity factors for circumferential semi-elliptical surface cracks in a hollow cylinder subjected to pure torsion. Engineering Fracture Mechanics 105, 152–168. Citarella R., Cricrì G., Armentani E., 2013. Multiple crack propagation with Dual Boundary Element Method in stiffened and reinforced full scale aeronautic panels, Key Engineering Materials 560, 129-155, Trans Tech Publications, Switzerland. Giannella, V., Dhondt, G., Kontermann, C., Citarella, R., 2019. Combined static-cyclic multi-axial crack propagation in cruciform specimens. International Journal of Fatigue 123, 296-307. Giannella, V., Perrella, M., 2019. Multi-axial fatigue numerical crack propagations in cruciform specimens. Frattura ed Integrita Strutturale 13(48), 639-647. Giannella, V., 2021. Stochastic approach to fatigue crack-growth simulation for a railway axle under input data variability. International Journal of Fatigue 144, 106044. Giannella, V., Citarella, R., Perrella, M., Shlyannikov, V., 2019. Surface crack modelling in an engine compressor disc. Theoretical and Applied Fracture Mechanics 103, 102279. Warzynek, P.A., Carter, B.J., Banks-Sills, L. The M-Integral for Computing Stress Intensity Factors in Generally Anisotropic Materials, Marshall Space Flight Center, July 2005.