How to cite this paper
Arora, P., Srivastava, S., Lohumi, M & Kumar, H. (2018). Progressive damage response and crack growth direction for multiple through cracks of laminated composite finite plate.Engineering Solid Mechanics, 6(4), 371-389.
Refrences
Abaqus analysis user’s manual, version 6.12, Vol. V (2012). Dassault Systemes Simulia Corp., Providence, RI, USA.
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., & Akhondi, S. (2015). Numerical analysis of a new mixed mode I/III fracture test specimen. Engineering Fracture Mechanics, 134, 95-110.
Ameri, M., Mansourian, A., Khavas, M. H., Aliha, M. R. M., & Ayatollahi, M. R. (2011). Cracked asphalt pavement under traffic loading–A 3D finite element analysis. Engineering Fracture Mechanics, 78(8), 1817-1826.
Arora, P., Srivastava, S., & Kumar, H. (2017). Determination of crack growth direction for multiple offset edge cracks of a finite plate. Engineering Solid Mechanics, 5(3), 185-198.
Asadpoure, A., Mohammadi, S., & Vafai, A. (2006). Modeling crack in orthotropic media using a coupled finite element and partition of unity methods. Finite Elements in Analysis and Design, 42(13), 1165-1175.
Ayatollahi, M. R., & Aliha, M. R. M. (2011). On the use of an anti‐symmetric four‐point bend specimen for mode II fracture experiments. Fatigue & Fracture of Engineering Materials & Structures, 34(11), 898-907.
Ayatollahi, M. R., Aliha, M. R. M., & Saghafi, H. (2011). An improved semi-circular bend specimen for investigating mixed mode brittle fracture. Engineering Fracture Mechanics, 78(1), 110-123.
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.
Belytschko, T., & Black, T. (1999). Elastic crack growth in finite elements with minimal remeshing. International journal for numerical methods in engineering, 45(5), 601-620.
Benabou, L., Benseddiq, N., & Naıt-Abdelaziz, M. (2002). Comparative analysis of damage at interfaces of composites. Composites Part B: Engineering, 33(3), 215-224.
Camanho, P. P., & Dávila, C. G. (2002). Mixed-mode decohesion finite elements for the simulation of delamination in composite materials.
Chang, F. K., & Lessard, L. B. (1991). Damage tolerance of laminated composites containing an open hole and subjected to compressive loadings: Part I—Analysis. Journal of Composite Materials, 25(1), 2-43.
Chen, H., Hong, M., & Liu, Y. (2004). Dynamic behavior of delaminated plates considering progressive failure process. Composite structures, 66(1-4), 459-466.
De Morais, A. B., & De Moura, M. F. S. F. (2005). Assessment of initiation criteria used in interlaminar fracture tests of composites. Engineering fracture mechanics, 72(17), 2615-2627.
Giner, E., Sukumar, N., Tarancón, J. E., & Fuenmayor, F. J. (2009). An Abaqus implementation of the extended finite element method. Engineering fracture mechanics, 76(3), 347-368.
Hallett, S. R., Jiang, W. G., Khan, B., & Wisnom, M. R. (2008). Modelling the interaction between matrix cracks and delamination damage in scaled quasi-isotropic specimens. Composites Science and Technology, 68(1), 80-89.
Hühne, C., Zerbst, A. K., Kuhlmann, G., Steenbock, C., & Rolfes, R. (2010). Progressive damage analysis of composite bolted joints with liquid shim layers using constant and continuous degradation models. Composite Structures, 92(2), 189-200.
Kaman, M. O. (2011). Effect of fiber orientation on fracture toughness of laminated composite plates [0°/θ°] s. Engineering Fracture Mechanics, 78(13), 2521-2534.
Lee, H. K., & Šimunović, S. (2006). Prediction of crack evolution and effective elastic behavior of damage-tolerant brittle composites. Computer Methods in Applied Mechanics and Engineering, 196(1-3), 118-133.
Li, H., & Chandra, N. (2003). Analysis of crack growth and crack-tip plasticity in ductile materials using cohesive zone models. International Journal of Plasticity, 19(6), 849-882.
Lin, Z., Zhuang, Z., You, X., Wang, H., & Xu, D. (2012). Enriched goal-oriented error estimation applied to fracture mechanics problems solved by XFEM. Acta Mechanica Solida Sinica, 25(4), 393-403.
Liu, P. F., Hou, S. J., Chu, J. K., Hu, X. Y., Zhou, C. L., Liu, Y. L., ... & Yan, L. (2011). Finite element analysis of postbuckling and delamination of composite laminates using virtual crack closure technique. Composite Structures, 93(6), 1549-1560.
Maimi, P., Camanho, P. P., Mayugo, J. A., & Turon, A. (2011). Matrix cracking and delamination in laminated composites. Part II: Evolution of crack density and delamination. Mechanics of Materials, 43(4), 194-211.
Moës, N., Dolbow, J., & Belytschko, T. (1999). A finite element method for crack growth without remeshing. International Journal for Numerical Methods in Engineering, 46(1), 131-150.
Ogihara, S., & Takeda, N. (1995). Interaction between transverse cracks and delamination during damage progress in CFRP cross-ply laminates. Composites Science and Technology, 54(4), 395-404.
Papanikos, P., Tserpes, K. I., Labeas, G., & Pantelakis, S. (2005). Progressive damage modelling of bonded composite repairs. Theoretical and Applied Fracture Mechanics, 43(2), 189-198.
Reddy, Y. S. N., Moorthy, C. D., & Reddy, J. N. (1995). Non-linear progressive failure analysis of laminated composite plates. International Journal of Non-Linear Mechanics, 30(5), 629-649.
Rice, J. R. (1968). A path independent integral and the approximate analysis of strain concentration by notches and cracks. Journal of applied mechanics, 35(2), 379-386.
Rotem, A. (2004). Prediction of laminate failure with the Rotem failure criterion. In Failure Criteria in Fibre-Reinforced-Polymer Composites (pp. 298-315).
Spottswood, S. M., & Palazotto, A. N. (2001). Progressive failure analysis of a composite shell. Composite Structures, 53(1), 117-131.
Srivastava, A. K., & Lal, A. (2014). Dynamic simulation of multiple offset-edge crack of a finite plate. Journal of Aircraft, 51(3), 849-860.
Srivastava, A. K., Arora, P. K., Srivastava, S. C., Kumar, H., & Lohumi, M. K. (2018). Determination of Fracture Parameters for Multiple Cracks of Laminated Composite Finite Plate. Applied Composite Materials, 25(2), 381-398.
Strivastava, A. K., & Lal, A. (2013). Determination of fracture parameters for multiple edge cracks of a finite plate. Journal of Aircraft, 50(3), 901-910.
Sun, X. S., Tan, V. B. C., & Tay, T. E. (2011). Micromechanics-based progressive failure analysis of fibre-reinforced composites with non-iterative element-failure method. Computers & Structures, 89(11-12), 1103-1116.
Tan, S. C. (1991). A progressive failure model for composite laminates containing openings. Journal of Composite Materials, 25(5), 556-577.
Wang, Z., Ma, L., & Wu, L. (2011). Numerical simulation of crack growth through particulate clusters in brittle matrix using the XFEM technique. Procedia Engineering, 10, 786-791.
Xie, D., & Biggers Jr, S. B. (2006). Progressive crack growth analysis using interface element based on the virtual crack closure technique. Finite Elements in Analysis and Design, 42(11), 977-984.
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., & Akhondi, S. (2015). Numerical analysis of a new mixed mode I/III fracture test specimen. Engineering Fracture Mechanics, 134, 95-110.
Ameri, M., Mansourian, A., Khavas, M. H., Aliha, M. R. M., & Ayatollahi, M. R. (2011). Cracked asphalt pavement under traffic loading–A 3D finite element analysis. Engineering Fracture Mechanics, 78(8), 1817-1826.
Arora, P., Srivastava, S., & Kumar, H. (2017). Determination of crack growth direction for multiple offset edge cracks of a finite plate. Engineering Solid Mechanics, 5(3), 185-198.
Asadpoure, A., Mohammadi, S., & Vafai, A. (2006). Modeling crack in orthotropic media using a coupled finite element and partition of unity methods. Finite Elements in Analysis and Design, 42(13), 1165-1175.
Ayatollahi, M. R., & Aliha, M. R. M. (2011). On the use of an anti‐symmetric four‐point bend specimen for mode II fracture experiments. Fatigue & Fracture of Engineering Materials & Structures, 34(11), 898-907.
Ayatollahi, M. R., Aliha, M. R. M., & Saghafi, H. (2011). An improved semi-circular bend specimen for investigating mixed mode brittle fracture. Engineering Fracture Mechanics, 78(1), 110-123.
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.
Belytschko, T., & Black, T. (1999). Elastic crack growth in finite elements with minimal remeshing. International journal for numerical methods in engineering, 45(5), 601-620.
Benabou, L., Benseddiq, N., & Naıt-Abdelaziz, M. (2002). Comparative analysis of damage at interfaces of composites. Composites Part B: Engineering, 33(3), 215-224.
Camanho, P. P., & Dávila, C. G. (2002). Mixed-mode decohesion finite elements for the simulation of delamination in composite materials.
Chang, F. K., & Lessard, L. B. (1991). Damage tolerance of laminated composites containing an open hole and subjected to compressive loadings: Part I—Analysis. Journal of Composite Materials, 25(1), 2-43.
Chen, H., Hong, M., & Liu, Y. (2004). Dynamic behavior of delaminated plates considering progressive failure process. Composite structures, 66(1-4), 459-466.
De Morais, A. B., & De Moura, M. F. S. F. (2005). Assessment of initiation criteria used in interlaminar fracture tests of composites. Engineering fracture mechanics, 72(17), 2615-2627.
Giner, E., Sukumar, N., Tarancón, J. E., & Fuenmayor, F. J. (2009). An Abaqus implementation of the extended finite element method. Engineering fracture mechanics, 76(3), 347-368.
Hallett, S. R., Jiang, W. G., Khan, B., & Wisnom, M. R. (2008). Modelling the interaction between matrix cracks and delamination damage in scaled quasi-isotropic specimens. Composites Science and Technology, 68(1), 80-89.
Hühne, C., Zerbst, A. K., Kuhlmann, G., Steenbock, C., & Rolfes, R. (2010). Progressive damage analysis of composite bolted joints with liquid shim layers using constant and continuous degradation models. Composite Structures, 92(2), 189-200.
Kaman, M. O. (2011). Effect of fiber orientation on fracture toughness of laminated composite plates [0°/θ°] s. Engineering Fracture Mechanics, 78(13), 2521-2534.
Lee, H. K., & Šimunović, S. (2006). Prediction of crack evolution and effective elastic behavior of damage-tolerant brittle composites. Computer Methods in Applied Mechanics and Engineering, 196(1-3), 118-133.
Li, H., & Chandra, N. (2003). Analysis of crack growth and crack-tip plasticity in ductile materials using cohesive zone models. International Journal of Plasticity, 19(6), 849-882.
Lin, Z., Zhuang, Z., You, X., Wang, H., & Xu, D. (2012). Enriched goal-oriented error estimation applied to fracture mechanics problems solved by XFEM. Acta Mechanica Solida Sinica, 25(4), 393-403.
Liu, P. F., Hou, S. J., Chu, J. K., Hu, X. Y., Zhou, C. L., Liu, Y. L., ... & Yan, L. (2011). Finite element analysis of postbuckling and delamination of composite laminates using virtual crack closure technique. Composite Structures, 93(6), 1549-1560.
Maimi, P., Camanho, P. P., Mayugo, J. A., & Turon, A. (2011). Matrix cracking and delamination in laminated composites. Part II: Evolution of crack density and delamination. Mechanics of Materials, 43(4), 194-211.
Moës, N., Dolbow, J., & Belytschko, T. (1999). A finite element method for crack growth without remeshing. International Journal for Numerical Methods in Engineering, 46(1), 131-150.
Ogihara, S., & Takeda, N. (1995). Interaction between transverse cracks and delamination during damage progress in CFRP cross-ply laminates. Composites Science and Technology, 54(4), 395-404.
Papanikos, P., Tserpes, K. I., Labeas, G., & Pantelakis, S. (2005). Progressive damage modelling of bonded composite repairs. Theoretical and Applied Fracture Mechanics, 43(2), 189-198.
Reddy, Y. S. N., Moorthy, C. D., & Reddy, J. N. (1995). Non-linear progressive failure analysis of laminated composite plates. International Journal of Non-Linear Mechanics, 30(5), 629-649.
Rice, J. R. (1968). A path independent integral and the approximate analysis of strain concentration by notches and cracks. Journal of applied mechanics, 35(2), 379-386.
Rotem, A. (2004). Prediction of laminate failure with the Rotem failure criterion. In Failure Criteria in Fibre-Reinforced-Polymer Composites (pp. 298-315).
Spottswood, S. M., & Palazotto, A. N. (2001). Progressive failure analysis of a composite shell. Composite Structures, 53(1), 117-131.
Srivastava, A. K., & Lal, A. (2014). Dynamic simulation of multiple offset-edge crack of a finite plate. Journal of Aircraft, 51(3), 849-860.
Srivastava, A. K., Arora, P. K., Srivastava, S. C., Kumar, H., & Lohumi, M. K. (2018). Determination of Fracture Parameters for Multiple Cracks of Laminated Composite Finite Plate. Applied Composite Materials, 25(2), 381-398.
Strivastava, A. K., & Lal, A. (2013). Determination of fracture parameters for multiple edge cracks of a finite plate. Journal of Aircraft, 50(3), 901-910.
Sun, X. S., Tan, V. B. C., & Tay, T. E. (2011). Micromechanics-based progressive failure analysis of fibre-reinforced composites with non-iterative element-failure method. Computers & Structures, 89(11-12), 1103-1116.
Tan, S. C. (1991). A progressive failure model for composite laminates containing openings. Journal of Composite Materials, 25(5), 556-577.
Wang, Z., Ma, L., & Wu, L. (2011). Numerical simulation of crack growth through particulate clusters in brittle matrix using the XFEM technique. Procedia Engineering, 10, 786-791.
Xie, D., & Biggers Jr, S. B. (2006). Progressive crack growth analysis using interface element based on the virtual crack closure technique. Finite Elements in Analysis and Design, 42(11), 977-984.