How to cite this paper
Mirsayar, M & Takabi, B. (2016). Fracture of underwater notched structures.Engineering Solid Mechanics, 4(2), 43-52.
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.
Akbardoost, J. (2014). Size and crack length effects on fracture toughness of polycrystalline graphite. Engineering Solid Mechanics, 2(3), 183-192.
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., & Akbardoost, J. (2012a). Typical upper bound–lower bound mixed mode fracture resistance envelopes for rock material. Rock mechanics and rock engineering, 45(1), 65-74.
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., & Ayatollahi, M. R. (2013). Two-parameter fracture analysis of SCB rock specimen under mixed mode loading. Engineering Fracture Mechanics, 103, 115-123.
Aliha, M. R. M., & Ayatollahi, M. R. (2014). Rock fracture toughness study using cracked chevron notched Brazilian disc specimen under pure modes I and II loading–A statistical approach. Theoretical and Applied Fracture Mechanics, 69, 17-25.
Aliha, M. R. M., Bahmani, A., & Akhondi, S. (2015a). Numerical analysis of a new mixed mode I/III fracture test specimen. Engineering Fracture Mechanics, 134, 95-110.
Aliha, M. R. M., Bahmani, A., & Akhondi, S. (2015b). Determination of mode III fracture toughness for different materials using a new designed test configuration. Materials & Design, 86, 863-871.
Ameri, M., Mansourian, A., Pirmohammad, S., Aliha, M. R. M., & Ayatollahi, M. R. (2012). Mixed mode fracture resistance of asphalt concrete mixtures. Engineering Fracture Mechanics, 93, 153-167.
Arabi, H., Mirsayar, M. M., Samaei, A. T., & Darandeh, M. (2013). Study of characteristic equation of the elastic stress field near bimaterial notches. Strength of Materials, 45(5), 598-606.
Ayatollahi, M. R., Aliha, M. R. M., & Hassani, M. M. (2006). Mixed mode brittle fracture in PMMA—an experimental study using SCB specimens. Materials Science and Engineering: A, 417(1), 348-356.
Ayatollahi, M. R., & Aliha, M. R. M. (2007). Wide range data for crack tip parameters in two disc-type specimens under mixed mode loading. Computational materials science, 38(4), 660-670.
Ayatollahi, M. R., & Aliha, M. R. M. (2008a). Mixed mode fracture analysis of polycrystalline graphite–a modified MTS criterion. Carbon, 46(10), 1302-1308.
Ayatollahi, M. R., & Aliha, M. R. M. (2008b). On the use of Brazilian disc specimen for calculating mixed mode I–II fracture toughness of rock materials. Engineering Fracture Mechanics, 75(16), 4631-4641.
Ayatollahi, M. R., & Aliha, M. R. M. (2009). Analysis of a new specimen for mixed mode fracture tests on brittle materials. Engineering Fracture Mechanics, 76(11), 1563-1573.
Ayatollahi, M. R., & Aliha, M. R. M. (2011). Fracture analysis of some ceramics under mixed mode loading. Journal of the American Ceramic Society, 94(2), 561-569.
Ayatollahi, M. R., & Mirsayar, M. M. (2011). Kinking angles for interface cracks. Procedia Engineering, 10, 325-329.
Ayatollahi, M. R., Mirsayar, M. M., & Nejati, M. (2010). Evaluation of first non-singular stress term in bi-material notches. Computational Materials Science, 50(2), 752-760.
Ayatollahi, M. R., Mirsayar, M. M., & Dehghany, M. (2011a). Experimental determination of stress field parameters in bi-material notches using photoelasticity. Materials & Design, 32(10), 4901-4908.
Ayatollahi, M. R., Aliha, M. R. M., & Saghafi, H. (2011b). An improved semi-circular bend specimen for investigating mixed mode brittle fracture. Engineering Fracture Mechanics, 78(1), 110-123.
Ayatollahi, M. R., & Nejati, M. (2011). Determination of NSIFs and coefficients of higher order terms for sharp notches using finite element method. International Journal of Mechanical Sciences, 53(3), 164-177.
Ayatollahi, M. R., Dehghany, M., & Mirsayar, M. M. (2013). A comprehensive photoelastic study for mode I sharp V-notches. European Journal of Mechanics-A/Solids, 37, 216-230.
Berto, F., Lazzarin, P., & Radaj, D. (2009). Fictitious notch rounding concept applied to sharp V-notches: Evaluation of the microstructural support factor for different failure hypotheses: Part II: Microstructural support analysis. Engineering Fracture Mechanics, 76(9), 1151-1175.
Chang, K. J. (1981). On the maximum strain criterion—a new approach to the angled crack problem. Engineering Fracture Mechanics, 14(1), 107-124.
Erdogan, F., & Sih, G. C. (1963). On the crack extension in plates under plane loading and transverse shear. Journal of Fluids Engineering, 85(4), 519-525.
G?mez, F. J., Elices, M., Berto, F., & Lazzarin, P. (2008). A generalised notch stress intensity factor for U-notched components loaded under mixed mode. Engineering Fracture Mechanics, 75(16), 4819-4833.
Ju, S. H., & Chung, H. Y. (2007). Accuracy and limit of a least-squares method to calculate 3D notch SIFs. International Journal of Fracture, 148(2), 169-183.
Lazzarin, P., Berto, F., & Zappalorto, M. (2010). Rapid calculations of notch stress intensity factors based on averaged strain energy density from coarse meshes: theoretical bases and applications. International Journal of Fatigue, 32(10), 1559-1567.
Mirsayar, M. (2013). Calculation of stress intensity factors for an interfacial notch of a bi-material joint using photoelasticity. Engineering Solid Mechanics, 1(4), 149-153.
Mirsayar, M., & Samaei, A. (2013). Photoelastic study of bi-material notches: Effect of mismatch parameters. Engineering Solid Mechanics, 1(1), 21-26.
Mirsayar, M. (2014a). A new mixed mode fracture test specimen covering positive and negative values of T-stress. Engineering Solid Mechanics, 2(2), 67-72.
Mirsayar, M. (2014b). A modified maximum tangential stress criterion for determination of the fracture toughness in bi-material notches–Part 1: Theory. Engineering Solid Mechanics, 2(4), 277-282.
Mirsayar, M. M. (2014c). On fracture of kinked interface cracks–The role of T-stress. Materials & Design, 61, 117-123.
Mirsayar, M. M., Aliha, M. R. M., & Samaei, A. T. (2014). On fracture initiation angle near bi-material notches–Effects of first non-singular stress term. Engineering Fracture Mechanics, 119, 124-131.
Mirsayar, M., & Samaei, A. (2014). Application of maximum tangential stress criterion in determination of fracture initiation angles of silicon/glass anodic bonds. Engineering Solid Mechanics, 2(3), 145-150.
Mirsayar, M. M. (2015a). Three dimensional investigation of mode i stress intensity factor variations in crack front using finite element method. American Journal of Engineering and Applied Sciences, 8(1), 11.
Mirsayar, M. M. (2015b). Mixed mode fracture analysis using extended maximum tangential strain criterion. Materials & Design, 86, 941-947.
Mirsayar, M. M., & Samaei, A. T. (2015). Fracture Initiation at the Zirconia/Veneer Interface-A Finite Element Simulation. American Journal of Engineering and Applied Sciences, 8(3), 354.
Nayebi, A., & Sadrabadi, S. A. (2013). FGM elastoplastic analysis under thermomechanical loading. International Journal of Pressure Vessels and Piping, 111, 12-20.
Qian, Z. Q. (2001). On the evaluation of wedge corner stress intensity factors of bi-material joints with surface tractions. Computers & Structures, 79(1), 53-64.
Selvarathinam, A. S., & Goree, J. G. (1998). T-stress based fracture model for cracks in isotropic materials. Engineering Fracture Mechanics, 60(5), 543-561.
Seweryn, A. (1994). Brittle fracture criterion for structures with sharp notches. Engineering Fracture Mechanics, 47(5), 673-681.
Seweryn, A., & ?ukaszewicz, A. (2002). Verification of brittle fracture criteria for elements with V-shaped notches. Engineering Fracture Mechanics, 69(13), 1487-1510.
Sih, G. C. (1974). Strain-energy-density factor applied to mixed mode crack problems. International Journal of fracture, 10(3), 305-321.
Susmel, L., & Taylor, D. (2008). The theory of critical distances to predict static strength of notched brittle components subjected to mixed-mode loading. Engineering Fracture Mechanics, 75(3), 534-550.
Takabi, B. (2016). Thermomechanical transient analysis of a thick-hollow FGM cylinder. Engineering Solid Mechanics, 4(1), 25-32.
Taylor, D. (2008). The theory of critical distances. Engineering Fracture Mechanics, 75(7), 1696-1705.
Torabi, A. (2013). Wide range brittle fracture curves for U-notched components based on UMTS model. Engineering Solid Mechanics, 1(2), 57-68.
Williams, M. L. (1952). Stress singularities resulting from various boundary conditions. Journal of Applied Mechanics, 19(4), 526-528.
Akbardoost, J. (2014). Size and crack length effects on fracture toughness of polycrystalline graphite. Engineering Solid Mechanics, 2(3), 183-192.
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., & Akbardoost, J. (2012a). Typical upper bound–lower bound mixed mode fracture resistance envelopes for rock material. Rock mechanics and rock engineering, 45(1), 65-74.
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., & Ayatollahi, M. R. (2013). Two-parameter fracture analysis of SCB rock specimen under mixed mode loading. Engineering Fracture Mechanics, 103, 115-123.
Aliha, M. R. M., & Ayatollahi, M. R. (2014). Rock fracture toughness study using cracked chevron notched Brazilian disc specimen under pure modes I and II loading–A statistical approach. Theoretical and Applied Fracture Mechanics, 69, 17-25.
Aliha, M. R. M., Bahmani, A., & Akhondi, S. (2015a). Numerical analysis of a new mixed mode I/III fracture test specimen. Engineering Fracture Mechanics, 134, 95-110.
Aliha, M. R. M., Bahmani, A., & Akhondi, S. (2015b). Determination of mode III fracture toughness for different materials using a new designed test configuration. Materials & Design, 86, 863-871.
Ameri, M., Mansourian, A., Pirmohammad, S., Aliha, M. R. M., & Ayatollahi, M. R. (2012). Mixed mode fracture resistance of asphalt concrete mixtures. Engineering Fracture Mechanics, 93, 153-167.
Arabi, H., Mirsayar, M. M., Samaei, A. T., & Darandeh, M. (2013). Study of characteristic equation of the elastic stress field near bimaterial notches. Strength of Materials, 45(5), 598-606.
Ayatollahi, M. R., Aliha, M. R. M., & Hassani, M. M. (2006). Mixed mode brittle fracture in PMMA—an experimental study using SCB specimens. Materials Science and Engineering: A, 417(1), 348-356.
Ayatollahi, M. R., & Aliha, M. R. M. (2007). Wide range data for crack tip parameters in two disc-type specimens under mixed mode loading. Computational materials science, 38(4), 660-670.
Ayatollahi, M. R., & Aliha, M. R. M. (2008a). Mixed mode fracture analysis of polycrystalline graphite–a modified MTS criterion. Carbon, 46(10), 1302-1308.
Ayatollahi, M. R., & Aliha, M. R. M. (2008b). On the use of Brazilian disc specimen for calculating mixed mode I–II fracture toughness of rock materials. Engineering Fracture Mechanics, 75(16), 4631-4641.
Ayatollahi, M. R., & Aliha, M. R. M. (2009). Analysis of a new specimen for mixed mode fracture tests on brittle materials. Engineering Fracture Mechanics, 76(11), 1563-1573.
Ayatollahi, M. R., & Aliha, M. R. M. (2011). Fracture analysis of some ceramics under mixed mode loading. Journal of the American Ceramic Society, 94(2), 561-569.
Ayatollahi, M. R., & Mirsayar, M. M. (2011). Kinking angles for interface cracks. Procedia Engineering, 10, 325-329.
Ayatollahi, M. R., Mirsayar, M. M., & Nejati, M. (2010). Evaluation of first non-singular stress term in bi-material notches. Computational Materials Science, 50(2), 752-760.
Ayatollahi, M. R., Mirsayar, M. M., & Dehghany, M. (2011a). Experimental determination of stress field parameters in bi-material notches using photoelasticity. Materials & Design, 32(10), 4901-4908.
Ayatollahi, M. R., Aliha, M. R. M., & Saghafi, H. (2011b). An improved semi-circular bend specimen for investigating mixed mode brittle fracture. Engineering Fracture Mechanics, 78(1), 110-123.
Ayatollahi, M. R., & Nejati, M. (2011). Determination of NSIFs and coefficients of higher order terms for sharp notches using finite element method. International Journal of Mechanical Sciences, 53(3), 164-177.
Ayatollahi, M. R., Dehghany, M., & Mirsayar, M. M. (2013). A comprehensive photoelastic study for mode I sharp V-notches. European Journal of Mechanics-A/Solids, 37, 216-230.
Berto, F., Lazzarin, P., & Radaj, D. (2009). Fictitious notch rounding concept applied to sharp V-notches: Evaluation of the microstructural support factor for different failure hypotheses: Part II: Microstructural support analysis. Engineering Fracture Mechanics, 76(9), 1151-1175.
Chang, K. J. (1981). On the maximum strain criterion—a new approach to the angled crack problem. Engineering Fracture Mechanics, 14(1), 107-124.
Erdogan, F., & Sih, G. C. (1963). On the crack extension in plates under plane loading and transverse shear. Journal of Fluids Engineering, 85(4), 519-525.
G?mez, F. J., Elices, M., Berto, F., & Lazzarin, P. (2008). A generalised notch stress intensity factor for U-notched components loaded under mixed mode. Engineering Fracture Mechanics, 75(16), 4819-4833.
Ju, S. H., & Chung, H. Y. (2007). Accuracy and limit of a least-squares method to calculate 3D notch SIFs. International Journal of Fracture, 148(2), 169-183.
Lazzarin, P., Berto, F., & Zappalorto, M. (2010). Rapid calculations of notch stress intensity factors based on averaged strain energy density from coarse meshes: theoretical bases and applications. International Journal of Fatigue, 32(10), 1559-1567.
Mirsayar, M. (2013). Calculation of stress intensity factors for an interfacial notch of a bi-material joint using photoelasticity. Engineering Solid Mechanics, 1(4), 149-153.
Mirsayar, M., & Samaei, A. (2013). Photoelastic study of bi-material notches: Effect of mismatch parameters. Engineering Solid Mechanics, 1(1), 21-26.
Mirsayar, M. (2014a). A new mixed mode fracture test specimen covering positive and negative values of T-stress. Engineering Solid Mechanics, 2(2), 67-72.
Mirsayar, M. (2014b). A modified maximum tangential stress criterion for determination of the fracture toughness in bi-material notches–Part 1: Theory. Engineering Solid Mechanics, 2(4), 277-282.
Mirsayar, M. M. (2014c). On fracture of kinked interface cracks–The role of T-stress. Materials & Design, 61, 117-123.
Mirsayar, M. M., Aliha, M. R. M., & Samaei, A. T. (2014). On fracture initiation angle near bi-material notches–Effects of first non-singular stress term. Engineering Fracture Mechanics, 119, 124-131.
Mirsayar, M., & Samaei, A. (2014). Application of maximum tangential stress criterion in determination of fracture initiation angles of silicon/glass anodic bonds. Engineering Solid Mechanics, 2(3), 145-150.
Mirsayar, M. M. (2015a). Three dimensional investigation of mode i stress intensity factor variations in crack front using finite element method. American Journal of Engineering and Applied Sciences, 8(1), 11.
Mirsayar, M. M. (2015b). Mixed mode fracture analysis using extended maximum tangential strain criterion. Materials & Design, 86, 941-947.
Mirsayar, M. M., & Samaei, A. T. (2015). Fracture Initiation at the Zirconia/Veneer Interface-A Finite Element Simulation. American Journal of Engineering and Applied Sciences, 8(3), 354.
Nayebi, A., & Sadrabadi, S. A. (2013). FGM elastoplastic analysis under thermomechanical loading. International Journal of Pressure Vessels and Piping, 111, 12-20.
Qian, Z. Q. (2001). On the evaluation of wedge corner stress intensity factors of bi-material joints with surface tractions. Computers & Structures, 79(1), 53-64.
Selvarathinam, A. S., & Goree, J. G. (1998). T-stress based fracture model for cracks in isotropic materials. Engineering Fracture Mechanics, 60(5), 543-561.
Seweryn, A. (1994). Brittle fracture criterion for structures with sharp notches. Engineering Fracture Mechanics, 47(5), 673-681.
Seweryn, A., & ?ukaszewicz, A. (2002). Verification of brittle fracture criteria for elements with V-shaped notches. Engineering Fracture Mechanics, 69(13), 1487-1510.
Sih, G. C. (1974). Strain-energy-density factor applied to mixed mode crack problems. International Journal of fracture, 10(3), 305-321.
Susmel, L., & Taylor, D. (2008). The theory of critical distances to predict static strength of notched brittle components subjected to mixed-mode loading. Engineering Fracture Mechanics, 75(3), 534-550.
Takabi, B. (2016). Thermomechanical transient analysis of a thick-hollow FGM cylinder. Engineering Solid Mechanics, 4(1), 25-32.
Taylor, D. (2008). The theory of critical distances. Engineering Fracture Mechanics, 75(7), 1696-1705.
Torabi, A. (2013). Wide range brittle fracture curves for U-notched components based on UMTS model. Engineering Solid Mechanics, 1(2), 57-68.
Williams, M. L. (1952). Stress singularities resulting from various boundary conditions. Journal of Applied Mechanics, 19(4), 526-528.