How to cite this paper
Joseph, R., Putra, I., Darmawan, A., Liew, H., Ramesh, S., Kadarno, P., Mohammad, M & Purbolaksono, J. (2020). Fracture analysis of a corner crack in a pinhole of a solid cylinder under torsion loading.Engineering Solid Mechanics, 8(4), 353-364.
Refrences
Abd-Elhady, A. (2013). Mixed mode I/II stress intensity factors through the thickness of disc type specimens. Engineering Solid Mechanics, 1(4), 119-128.
Alshoaibi, A. (2020). Finite element-based model for crack propagation in linear elastic materials. Engineering Solid Mechanics, 8, 131-142.
Aliha, M.R.M. & Ayatollahi, M. R. (2008). On mixed-mode I/II crack growth in dental resin materials. Scripta Materialia, 59(2), 258-261.
Aliha, M.R.M., Ayatollahi, M. R., Smith, D.J. & Pavier, M. J. (2010). Geometry and size effects on fracture trajectory in a limestone rock under mixed mode loading. Engineering Fracture Mechanics, 77(11), 2200-2212.
Aliha, M.R.M. & Ayatollahi, M. R. (2012). Analysis of fracture initiation angle in some cracked ceramics using the generalized maximum tangential stress criterion. International Journal of Solids and Structures, 49(13), 1877-1883.
Aliha, M. R. M., Bahmani, A., & Akhondi, S. (2015). Numerical analysis of a new mixed mode I/III fracture test specimen. Engineering Fracture Mechanics, 134, 95-110.
Aliha, M.R.M. & Saghafi, H. (2013). The effects of thickness and Poisson’s ratio on 3D mixed-mode fracture. Engineering Fracture Mechanics, 98, 15-28.
Aliha, M. R. M., & Bahmani, A. (2017). Rock fracture toughness study under mixed mode I/III loading. Rock Mechanics and Rock Engineering, 50(7), 1739-1751.
Aliha, M. R. M., Linul, E., Bahmani, A., & Marsavina, L. (2018). Experimental and theoretical fracture toughness investigation of PUR foams under mixed mode I+ III loading. Polymer Testing, 67, 75-83.
Aliha, M.R.M., Shaker, S. & Keymanesh, M.R. (2019). Low temperature fracture toughness study for bitumen under mixed mode I + II loading condition. Engineering Fracture Mechanics, 206, 297-309.
Bahmani, A., Aliha, M. R. M., & Berto, F. (2017). Investigation of fracture toughness for a polycrystalline graphite under combined tensile-tear deformation. Theoretical and Applied Fracture Mechanics, 90, 53-64.
Bahmani, A., Aliha, M.R.M., Jebalbarezi Sarbijan, M. & Mousavi, S.S. (2020). An extended edge-notched disc bend (ENDB) specimen for mixed-mode I+II fracture assessments. International Journal of Solids and Structures, 193–194, 239-250.
BEASY, Release 14 (2014). BEASY Ashurst Lodge, Ashurst, Southampton SO40 7AA, United Kingdom, http://www.beasy.com
Berto, F., Pook, L., & Campagnolo, A. (2017). Corner point singularities under in-plane and out-of-plane loading: a review of recent results. Engineering Solid Mechanics, 5(3), 167-176.
Carpinteri, A. & Brighenti, R. (1996). Fatigue propagation of surface flaws in round bars: a three‐parameter theoretical model. Fatigue & Fracture of Engineering Materials and Structures, 19, 1470-1480.
Carpinteri, A. & Vantadori, S. (2009). Sickle-shaped cracks in metallic round bars under cyclic eccentric axial loading. International Journal of Fatigue, 31, 759-765.
Cisilino, A.P. & Aliabadi, M.H. (1999). Three-dimensional boundary element analysis of fatigue crack growth in linear and non-linear fracture problems. Engineering Fracture Mechanics, 63(6), 713-733.
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
Couroneau, N. & Royer, J. (1998). Simplified model for the fatigue growth analysis of surface cracks in round bars under mode I. International Journal of Fatigue, 20, 711-718.
Forman, R.G., Shivakumar, V. & Newman Jr., J.C. (1994), Fatigue Crack Growth Computer Program NASA/FLAGRO Version 2.0, National Aeronautics and Space Administration (NASA).
Ismail, A.E., Ariffin, A.K., Abdullah, S. & Ghazali, M.J. (2012). Stress intensity factors for surface cracks in round bar under single and combined loadings. Meccanica, 47(5), 1141-1156.
Jen, Y.-M. & Wang, W.-W. (2005). Crack initiation life prediction for solid cylinders with transverse circular holes under in-phase and out-of-phase multiaxial loading. International Journal of Fatigue, 27(5), 527-539.
Joseph, R.P., Purbolaksono, J., Liew, H.L., Ramesh, S. & Hamdi, M. (2014). Stress intensity factors of a corner crack emanating from a pinhole of a solid cylinder. Engineering Fracture Mechanics, 128, 1-7.
Lin, X.B. & Smith, R.A. (1997). Shape growth simulation of surface cracks in tension fatigued round bars. International Journal of Fatigue, 19, 461-469.
Lin, X.B. & Smith, R.A. (1998). Fatigue growth simulation for cracks in notched and unnotched round bars. International Journal of Mechanical Sciences, 40, 405-419.
Mi, Y. & Aliabadi, M.H. (1992). Dual boundary element method for three-dimensional fracture mechanics analysis. Engineering Analysis with Boundary Elements, 10(2), 161-171.
Predan, J., Močilnik, 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.
Pook, L.P. (1994). Some implications of corner point singularities. Engineering Fracture Mechanics, 48(3), 367-378.
Pook, L.P., Campagnolo, A., Berto, F. & Lazzarin, P. (2015). Coupled fracture mode of a cracked plate under anti-plane loading. Engineering Fracture Mechanics, 134, 391-403.
Pook, L.P., Berto, F., & Campagnolo, A. (2017). State of the art of corner point singularities under in-plane and out-of-plane loading. Engineering Fracture Mechanics 174, 2-9.
Pour, P. H., Aliha, M. R. M., & Keymanesh, M. R. (2018). Evaluating mode I fracture resistance in asphalt mixtures using edge notched disc bend ENDB specimen with different geometrical and environmental conditions. Engineering Fracture Mechanics, 190, 245-258.
Thompson, K. & Sheppard, S. (1992). Fatigue crack growth in notched and plain shafts subjected to torsion and axial loading. Engineering Fracture Mechanics, 43, 55-71.
Toribio, J., Matos, J.C., Gonzalez, B. & Escuadra, J. (2009). Numerical modelling of crack shape evolution for surface flaws in round bars under tensile loading. Engineering Failure Analysis, 16, 618-630.
Toribio, J., Matos, J.C., Gonzalez, B. & Escuadra, J. (2011). Compliance evolution in round cracked bars under tensile fatigue. Engineering Fracture Mechanics, 78, 3243-3252.
Toribio, J., Matos, J.C., Gonzalez, B. & Escuadra, J. (2014). Numerical modelling of cracking path in round bars subjected to cyclic tension and bending. International Journal of Fatigue, 58, 20-27.
Yip, M.-C. & Jen, Y.-M. (1996). Biaxial fatigue crack initiation life prediction of solid cylindrical specimens with transverse circular holes. International Journal of Fatigue, 18(2), 111-117.
Zakavi, B., Kotousov, A., Khanna, A. & Branco, R. (2019). A new method for analysis of part-elliptical surface cracks in structures subjected to fatigue loading. Theoretical and Applied Fracture Mechanics, 103, 102258.
Alshoaibi, A. (2020). Finite element-based model for crack propagation in linear elastic materials. Engineering Solid Mechanics, 8, 131-142.
Aliha, M.R.M. & Ayatollahi, M. R. (2008). On mixed-mode I/II crack growth in dental resin materials. Scripta Materialia, 59(2), 258-261.
Aliha, M.R.M., Ayatollahi, M. R., Smith, D.J. & Pavier, M. J. (2010). Geometry and size effects on fracture trajectory in a limestone rock under mixed mode loading. Engineering Fracture Mechanics, 77(11), 2200-2212.
Aliha, M.R.M. & Ayatollahi, M. R. (2012). Analysis of fracture initiation angle in some cracked ceramics using the generalized maximum tangential stress criterion. International Journal of Solids and Structures, 49(13), 1877-1883.
Aliha, M. R. M., Bahmani, A., & Akhondi, S. (2015). Numerical analysis of a new mixed mode I/III fracture test specimen. Engineering Fracture Mechanics, 134, 95-110.
Aliha, M.R.M. & Saghafi, H. (2013). The effects of thickness and Poisson’s ratio on 3D mixed-mode fracture. Engineering Fracture Mechanics, 98, 15-28.
Aliha, M. R. M., & Bahmani, A. (2017). Rock fracture toughness study under mixed mode I/III loading. Rock Mechanics and Rock Engineering, 50(7), 1739-1751.
Aliha, M. R. M., Linul, E., Bahmani, A., & Marsavina, L. (2018). Experimental and theoretical fracture toughness investigation of PUR foams under mixed mode I+ III loading. Polymer Testing, 67, 75-83.
Aliha, M.R.M., Shaker, S. & Keymanesh, M.R. (2019). Low temperature fracture toughness study for bitumen under mixed mode I + II loading condition. Engineering Fracture Mechanics, 206, 297-309.
Bahmani, A., Aliha, M. R. M., & Berto, F. (2017). Investigation of fracture toughness for a polycrystalline graphite under combined tensile-tear deformation. Theoretical and Applied Fracture Mechanics, 90, 53-64.
Bahmani, A., Aliha, M.R.M., Jebalbarezi Sarbijan, M. & Mousavi, S.S. (2020). An extended edge-notched disc bend (ENDB) specimen for mixed-mode I+II fracture assessments. International Journal of Solids and Structures, 193–194, 239-250.
BEASY, Release 14 (2014). BEASY Ashurst Lodge, Ashurst, Southampton SO40 7AA, United Kingdom, http://www.beasy.com
Berto, F., Pook, L., & Campagnolo, A. (2017). Corner point singularities under in-plane and out-of-plane loading: a review of recent results. Engineering Solid Mechanics, 5(3), 167-176.
Carpinteri, A. & Brighenti, R. (1996). Fatigue propagation of surface flaws in round bars: a three‐parameter theoretical model. Fatigue & Fracture of Engineering Materials and Structures, 19, 1470-1480.
Carpinteri, A. & Vantadori, S. (2009). Sickle-shaped cracks in metallic round bars under cyclic eccentric axial loading. International Journal of Fatigue, 31, 759-765.
Cisilino, A.P. & Aliabadi, M.H. (1999). Three-dimensional boundary element analysis of fatigue crack growth in linear and non-linear fracture problems. Engineering Fracture Mechanics, 63(6), 713-733.
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
Couroneau, N. & Royer, J. (1998). Simplified model for the fatigue growth analysis of surface cracks in round bars under mode I. International Journal of Fatigue, 20, 711-718.
Forman, R.G., Shivakumar, V. & Newman Jr., J.C. (1994), Fatigue Crack Growth Computer Program NASA/FLAGRO Version 2.0, National Aeronautics and Space Administration (NASA).
Ismail, A.E., Ariffin, A.K., Abdullah, S. & Ghazali, M.J. (2012). Stress intensity factors for surface cracks in round bar under single and combined loadings. Meccanica, 47(5), 1141-1156.
Jen, Y.-M. & Wang, W.-W. (2005). Crack initiation life prediction for solid cylinders with transverse circular holes under in-phase and out-of-phase multiaxial loading. International Journal of Fatigue, 27(5), 527-539.
Joseph, R.P., Purbolaksono, J., Liew, H.L., Ramesh, S. & Hamdi, M. (2014). Stress intensity factors of a corner crack emanating from a pinhole of a solid cylinder. Engineering Fracture Mechanics, 128, 1-7.
Lin, X.B. & Smith, R.A. (1997). Shape growth simulation of surface cracks in tension fatigued round bars. International Journal of Fatigue, 19, 461-469.
Lin, X.B. & Smith, R.A. (1998). Fatigue growth simulation for cracks in notched and unnotched round bars. International Journal of Mechanical Sciences, 40, 405-419.
Mi, Y. & Aliabadi, M.H. (1992). Dual boundary element method for three-dimensional fracture mechanics analysis. Engineering Analysis with Boundary Elements, 10(2), 161-171.
Predan, J., Močilnik, 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.
Pook, L.P. (1994). Some implications of corner point singularities. Engineering Fracture Mechanics, 48(3), 367-378.
Pook, L.P., Campagnolo, A., Berto, F. & Lazzarin, P. (2015). Coupled fracture mode of a cracked plate under anti-plane loading. Engineering Fracture Mechanics, 134, 391-403.
Pook, L.P., Berto, F., & Campagnolo, A. (2017). State of the art of corner point singularities under in-plane and out-of-plane loading. Engineering Fracture Mechanics 174, 2-9.
Pour, P. H., Aliha, M. R. M., & Keymanesh, M. R. (2018). Evaluating mode I fracture resistance in asphalt mixtures using edge notched disc bend ENDB specimen with different geometrical and environmental conditions. Engineering Fracture Mechanics, 190, 245-258.
Thompson, K. & Sheppard, S. (1992). Fatigue crack growth in notched and plain shafts subjected to torsion and axial loading. Engineering Fracture Mechanics, 43, 55-71.
Toribio, J., Matos, J.C., Gonzalez, B. & Escuadra, J. (2009). Numerical modelling of crack shape evolution for surface flaws in round bars under tensile loading. Engineering Failure Analysis, 16, 618-630.
Toribio, J., Matos, J.C., Gonzalez, B. & Escuadra, J. (2011). Compliance evolution in round cracked bars under tensile fatigue. Engineering Fracture Mechanics, 78, 3243-3252.
Toribio, J., Matos, J.C., Gonzalez, B. & Escuadra, J. (2014). Numerical modelling of cracking path in round bars subjected to cyclic tension and bending. International Journal of Fatigue, 58, 20-27.
Yip, M.-C. & Jen, Y.-M. (1996). Biaxial fatigue crack initiation life prediction of solid cylindrical specimens with transverse circular holes. International Journal of Fatigue, 18(2), 111-117.
Zakavi, B., Kotousov, A., Khanna, A. & Branco, R. (2019). A new method for analysis of part-elliptical surface cracks in structures subjected to fatigue loading. Theoretical and Applied Fracture Mechanics, 103, 102258.