How to cite this paper
Olodo, E., Passoli, O., Adanhounme, V & Shambina, S. (2018). Numerical analysis of dynamic non-linear behavior of orthotropic multilayer shells with reinforcements in spirals.Engineering Solid Mechanics, 6(4), 307-314.
Refrences
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Arashmehr, J., Rahimi, G. H., & Rasouli, S. F. (2013). An experimental and numerical investigation of a grid composite cylindrical shell subjected to transverse loading. Strojniški vestnik-Journal of Mechanical Engineering, 59(12), 755-762.
Batra, R. C., & Hassan, N. M. (2007). Response of fiber reinforced composites to underwater explosive loads. Composites Part B: Engineering, 38(4), 448-468.
Baum, F.A., Orlenko, L.P. and Stanyukovich, K.P. (1975). Physics of Explosion. Moscow: Nauka, (In Russian).
Fedorenko, A. G., Syrunin, M. A., & Ivanov, A. G. (2005). Criterion for selecting composite materials for explosion containment structures. Combustion, Explosion and Shock Waves, 41(5), 487-495.
Chakrabarti, A. (2013). Dynamic response of functionally graded skew shell panel. Latin American Journal of Solids and Structures, 10(6), 1243-1266.
Haftchenari, H., Darvizeh, M., Darvizeh, A., Ansari, R., & Sharma, C. B. (2007). Dynamic analysis of composite cylindrical shells using differential quadrature method (DQM). Composite Structures, 78(2), 292-298.
Haldar, S. (2008). Free vibration of composite skewed cylindrical shell panel by finite element method. Journal of Sound and Vibration, 311(1-2), 9-19.
Hill, R. (1998). The mathematical theory of plasticity (Vol. 11). Oxford university press.
LeBlanc, J., & Shukla, A. (2010). Dynamic response and damage evolution in composite materials subjected to underwater explosive loading: an experimental and computational study. Composite Structures, 92(10), 2421-2430.
Li, G. (2007). Experimental study of hybrid composite cylinders. Composite Structures, 78(2), 170-181.
Lugovoi, P. Z., Meish, V. F., Rybakin, B. P., & Sekrieru, G. V. (2006). Dynamics of reinforced compound shells under nonstationary loads. International Applied Mechanics, 42(4), 455-460.
Onkar, A. K., Upadhyay, C. S., & Yadav, D. (2007). Probabilistic failure of laminated composite plates using the stochastic finite element method. Composite Structures, 77(1), 79-91.
Perotti, L. E., Deiterding, R., Inaba, K., Shepherd, J., & Ortiz, M. (2013). Elastic response of water-filled fiber composite tubes under shock wave loading. International Journal of Solids and Structures, 50(3-4), 473-486.
Rahimi, G. H., Zandi, M., & Rasouli, S. F. (2013). Analysis of the effect of stiffener profile on buckling strength in composite isogrid stiffened shell under axial loading. Aerospace science and technology, 24(1), 198-203.
Rybakin, B., G. Secrieru, G., Lugovoi, P. & Meish, V. (2009). The numerical investigation of reinforced shell undergo dynamic load. SISOM 2009, Bucharest.
Srinivasa, C. V., Suresh, Y. J., & Kumar, W. P. (2014). Experimental and finite element studies on free vibration of skew plates. International Journal of Advanced Structural Engineering (IJASE), 6(1), 48.
Wang, H. J., & Chen, L. W. (2004). Finite element dynamic analysis of orthotropic cylindrical shells with a constrained damping layer. Finite Elements in Analysis and Design, 40(7), 737-755.
Wilkins, M. L. (1964). Calculation of elastoplastic flow. Methods in Computational Physics, New York, Academic Press.
Zhao, G. P., & Cho, C. D. (2007). Damage initiation and propagation in composite shells subjected to impact. Composite Structures, 78(1), 91-100.
Arashmehr, J., Rahimi, G. H., & Rasouli, S. F. (2013). An experimental and numerical investigation of a grid composite cylindrical shell subjected to transverse loading. Strojniški vestnik-Journal of Mechanical Engineering, 59(12), 755-762.
Batra, R. C., & Hassan, N. M. (2007). Response of fiber reinforced composites to underwater explosive loads. Composites Part B: Engineering, 38(4), 448-468.
Baum, F.A., Orlenko, L.P. and Stanyukovich, K.P. (1975). Physics of Explosion. Moscow: Nauka, (In Russian).
Fedorenko, A. G., Syrunin, M. A., & Ivanov, A. G. (2005). Criterion for selecting composite materials for explosion containment structures. Combustion, Explosion and Shock Waves, 41(5), 487-495.
Chakrabarti, A. (2013). Dynamic response of functionally graded skew shell panel. Latin American Journal of Solids and Structures, 10(6), 1243-1266.
Haftchenari, H., Darvizeh, M., Darvizeh, A., Ansari, R., & Sharma, C. B. (2007). Dynamic analysis of composite cylindrical shells using differential quadrature method (DQM). Composite Structures, 78(2), 292-298.
Haldar, S. (2008). Free vibration of composite skewed cylindrical shell panel by finite element method. Journal of Sound and Vibration, 311(1-2), 9-19.
Hill, R. (1998). The mathematical theory of plasticity (Vol. 11). Oxford university press.
LeBlanc, J., & Shukla, A. (2010). Dynamic response and damage evolution in composite materials subjected to underwater explosive loading: an experimental and computational study. Composite Structures, 92(10), 2421-2430.
Li, G. (2007). Experimental study of hybrid composite cylinders. Composite Structures, 78(2), 170-181.
Lugovoi, P. Z., Meish, V. F., Rybakin, B. P., & Sekrieru, G. V. (2006). Dynamics of reinforced compound shells under nonstationary loads. International Applied Mechanics, 42(4), 455-460.
Onkar, A. K., Upadhyay, C. S., & Yadav, D. (2007). Probabilistic failure of laminated composite plates using the stochastic finite element method. Composite Structures, 77(1), 79-91.
Perotti, L. E., Deiterding, R., Inaba, K., Shepherd, J., & Ortiz, M. (2013). Elastic response of water-filled fiber composite tubes under shock wave loading. International Journal of Solids and Structures, 50(3-4), 473-486.
Rahimi, G. H., Zandi, M., & Rasouli, S. F. (2013). Analysis of the effect of stiffener profile on buckling strength in composite isogrid stiffened shell under axial loading. Aerospace science and technology, 24(1), 198-203.
Rybakin, B., G. Secrieru, G., Lugovoi, P. & Meish, V. (2009). The numerical investigation of reinforced shell undergo dynamic load. SISOM 2009, Bucharest.
Srinivasa, C. V., Suresh, Y. J., & Kumar, W. P. (2014). Experimental and finite element studies on free vibration of skew plates. International Journal of Advanced Structural Engineering (IJASE), 6(1), 48.
Wang, H. J., & Chen, L. W. (2004). Finite element dynamic analysis of orthotropic cylindrical shells with a constrained damping layer. Finite Elements in Analysis and Design, 40(7), 737-755.
Wilkins, M. L. (1964). Calculation of elastoplastic flow. Methods in Computational Physics, New York, Academic Press.
Zhao, G. P., & Cho, C. D. (2007). Damage initiation and propagation in composite shells subjected to impact. Composite Structures, 78(1), 91-100.