References

Lin, J.I., 2004. DYNA3D: A nonlinear, explicit three-dimensional finite element code for solid and structural mechanics user manual. Lawrence Livermore National Laboratory, Livermore, California.

Mohd, N.M.K., 2012. Modelling rate dependent behaviour of orthotropic metals. Ph.D Thesis, Cranfield University, Cranfield, England. .

Mohd, N.M.K., 2016. Modeling of constitutive model to predict the deformation behaviour of commercial Aluminum Alloy AA7010 subjected to high velocity impact. Modeling of constitutive model to predict the deformation behaviour of commercial Aluminum Alloy AA7 11: 2349-2353.
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Mohd, N.M.K., R. Vignjevic and J. Campbell, 2013. Modelling shockwave propagation in orthotropic materials. Modelling shockwave propagation in orthotropic materials. 315: 557-561.

Panov, V., 2006. Modelling of behaviour of metals at high strain rates. PhD Thesis, Cranfield University, Cranfield, England.

Thomas, M.A., D.E. Chitty, M.L. Gildea and T.C.M. Kindt, 2008. Constitutive soil properties for cuddeback. MSc Thesis, Applied Research Associates Inc., Albuquerque, New Mexico. https://ntrs.nasa.gov/search.jsp?R=20080032551