RT - Journal Article T1 - Low-velocity Impact Analysis of Rectangular Sandwich Plates with Composite Facesheets Reinforced by SMA Wires and Soft Auxetic Cores JF - mdrsjrns YR - 2018 JO - mdrsjrns VO - 18 IS - 5 UR - http://mme.modares.ac.ir/article-15-12860-en.html SP - 112 EP - 119 K1 - Shape Memory Alloy K1 - Martensite Volume Fraction K1 - Impact Response K1 - Composite Sandwich Plate K1 - Soft Auxetic Core AB - In this paper, the effect of shape memory alloy on low-velocity impact response of rectangular sandwich plates with composite facesheets and soft auxetic cores is investigated using a new higher-order global–local hyperbolic plate theory. In order to obtain accurate results with the least error, non-uniform and time-dependent distribution for the phases of SMA and the transverse compliance of the soft core are considered. Also, a refined contact law is proposed instead of using the traditional Hertz law and different contact laws are considered for the loading and unloading phases. Stiffness effects of all layers along with the effect of plate thickness on contact stiffness are considered. The obtained nonlinear finite element governing equations are solved by making use of an iterative algorithm at each time step. The results of the present study are compared with the experimental results in other references, and it is proved that the results are valid. Finally, the effect of auxetic core, core Poisson's ratio, SMA wires, and indenter energy on impact response of composite sandwich plat are investigated. The results show that the auxetic core increases the apparent stiffness of the contact area that causes an increase in impact forces and a decrease in the lateral deflection and impact duration. Besides, the SMA can absorb a remarkable portion of the stored impact-induced strain energy due to the superelastic and hysteretic natures of the SMA material, which results in increasing impact strength of the sandwich plate and decreasing the damage caused due to the impact. LA eng UL http://mme.modares.ac.ir/article-15-12860-en.html M3 ER -