How to cite this paper
Mirsayar, M. (2014). A new mixed mode fracture test specimen covering positive and negative values of T-stress.Engineering Solid Mechanics, 2(2), 67-72.
Refrences
Aliha, M. R. M., Ayatollahi, M. R., & Pakzad, R. (2008). Brittle fracture analysis using a ring-shape specimen containing two angled cracks. International Journal of Fracture, 153(1), 63-68.
Aliha, M. R. M., & Ayatollahi, M. R. (2009). Brittle fracture evaluation of a fine grain cement mortar in combined tensile?shear deformation. Fatigue & Fracture of Engineering Materials & Structures, 32(12), 987-994.
Aliha, M. R. M., & Ayatollahi, M. R. (2009). Brittle fracture evaluation of a fine grain cement mortar in combined tensile?shear deformation. Fatigue & Fracture of Engineering Materials & Structures, 32(12), 987-994.
Aliha, M. R. M., Ayatollahi, M. R., & Akbardoost, J. (2012). Typical upper bound–lower bound mixed mode fracture resistance envelopes for rock material. Rock mechanics and rock engineering, 45(1), 65-74.
Ayatollahi, M. R., & Aliha, M. R. M. (2009). Mixed mode fracture in soda lime glass analyzed by using the generalized MTS criterion. International Journal of Solids and Structures, 46(2), 311-321.
Ayatollahi, M. R., & Aliha, M. R. M. (2006). On determination of mode II fracture toughness using semi-circular bend specimen. International Journal of Solids and Structures, 43(17), 5217-5227.
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., 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.
Chang, S. H., Lee, C. I., & Jeon, S. (2002). Measurement of rock fracture toughness under modes I and II and mixed-mode conditions by using disc-type specimens. Engineering Geology, 66(1), 79-97.
Cotterell, B., & Rice, J. (1980). Slightly curved or kinked cracks. International Journal of Fracture, 16(2), 155-169.
Erdogan, F., & Sih, G. C. (1963). On the crack extension in plates under plane loading and transverse shear. Journal of Basic Engineering, 85, 519-525.
G?mez, F. J., Elices, M., Berto, F., & Lazzarin, P. (2009). Fracture of V-notched specimens under mixed mode (I+ II) loading in brittle materials. International journal of fracture, 159(2), 121-135.
Hussain, M. A., Pu, S. L., & Underwood, J. (1974). Strain Energy Release Rate for a Crack Under Combined Mode I and Mode II. Fracture analysis, 560, 1.
Khan, K., & Al-Shayea, N. A. (2000). Effect of specimen geometry and testing method on mixed mode I–II fracture toughness of a limestone rock from Saudi Arabia. Rock Mechanics and Rock Engineering, 33(3), 179-206.
Leevers, P. S., & Radon, J. C. (1982). Inherent stress biaxiality in various fracture specimen geometries. International Journal of Fracture, 19(4), 311-325.
Lim, I. L., Johnston, I. W., Choi, S. K., & Boland, J. N. (1994, June). Fracture testing of a soft rock with semi-circular specimens under three-point bending. Part 2—mixed-mode. In International journal of rock mechanics and mining sciences & geomechanics abstracts 31 (3), 199-212.
Shahani, A. R., & Tabatabaei, S. A. (2008). Computation of mixed mode stress intensity factors in a four-point bend specimen. Applied Mathematical Modelling, 32(7), 1281-1288.
Sih, G.C. (1974). Strain-energy-density factor applied to mixed mode crack problems. International Journal of Fracture, 10(3), 305-321.
Smith, D. J., Ayatollahi, M. R., & Pavier, M. J. (2001). The role of T?stress in brittle fracture for linear elastic materials under mixed?mode loading. Fatigue & Fracture of Engineering Materials & Structures, 24(2), 137-150.
Williams, M. L. (1961). The bending stress distribution at the base of a stationary crack. Journal of applied mechanics, 28(1), 78-82.
Aliha, M. R. M., & Ayatollahi, M. R. (2009). Brittle fracture evaluation of a fine grain cement mortar in combined tensile?shear deformation. Fatigue & Fracture of Engineering Materials & Structures, 32(12), 987-994.
Aliha, M. R. M., & Ayatollahi, M. R. (2009). Brittle fracture evaluation of a fine grain cement mortar in combined tensile?shear deformation. Fatigue & Fracture of Engineering Materials & Structures, 32(12), 987-994.
Aliha, M. R. M., Ayatollahi, M. R., & Akbardoost, J. (2012). Typical upper bound–lower bound mixed mode fracture resistance envelopes for rock material. Rock mechanics and rock engineering, 45(1), 65-74.
Ayatollahi, M. R., & Aliha, M. R. M. (2009). Mixed mode fracture in soda lime glass analyzed by using the generalized MTS criterion. International Journal of Solids and Structures, 46(2), 311-321.
Ayatollahi, M. R., & Aliha, M. R. M. (2006). On determination of mode II fracture toughness using semi-circular bend specimen. International Journal of Solids and Structures, 43(17), 5217-5227.
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., 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.
Chang, S. H., Lee, C. I., & Jeon, S. (2002). Measurement of rock fracture toughness under modes I and II and mixed-mode conditions by using disc-type specimens. Engineering Geology, 66(1), 79-97.
Cotterell, B., & Rice, J. (1980). Slightly curved or kinked cracks. International Journal of Fracture, 16(2), 155-169.
Erdogan, F., & Sih, G. C. (1963). On the crack extension in plates under plane loading and transverse shear. Journal of Basic Engineering, 85, 519-525.
G?mez, F. J., Elices, M., Berto, F., & Lazzarin, P. (2009). Fracture of V-notched specimens under mixed mode (I+ II) loading in brittle materials. International journal of fracture, 159(2), 121-135.
Hussain, M. A., Pu, S. L., & Underwood, J. (1974). Strain Energy Release Rate for a Crack Under Combined Mode I and Mode II. Fracture analysis, 560, 1.
Khan, K., & Al-Shayea, N. A. (2000). Effect of specimen geometry and testing method on mixed mode I–II fracture toughness of a limestone rock from Saudi Arabia. Rock Mechanics and Rock Engineering, 33(3), 179-206.
Leevers, P. S., & Radon, J. C. (1982). Inherent stress biaxiality in various fracture specimen geometries. International Journal of Fracture, 19(4), 311-325.
Lim, I. L., Johnston, I. W., Choi, S. K., & Boland, J. N. (1994, June). Fracture testing of a soft rock with semi-circular specimens under three-point bending. Part 2—mixed-mode. In International journal of rock mechanics and mining sciences & geomechanics abstracts 31 (3), 199-212.
Shahani, A. R., & Tabatabaei, S. A. (2008). Computation of mixed mode stress intensity factors in a four-point bend specimen. Applied Mathematical Modelling, 32(7), 1281-1288.
Sih, G.C. (1974). Strain-energy-density factor applied to mixed mode crack problems. International Journal of Fracture, 10(3), 305-321.
Smith, D. J., Ayatollahi, M. R., & Pavier, M. J. (2001). The role of T?stress in brittle fracture for linear elastic materials under mixed?mode loading. Fatigue & Fracture of Engineering Materials & Structures, 24(2), 137-150.
Williams, M. L. (1961). The bending stress distribution at the base of a stationary crack. Journal of applied mechanics, 28(1), 78-82.