This paper analyzes the characteristics of utilizing shape memory e?ect (SME) of shape memory alloy (SMA) in improving the low velocity impact resistance performance of com- posite plate by using ?nite element method. The constitutive relation for SMA hybrid composite plates is presented. The analytic model of ?nite element for SMA composite plate subjected to low velocity impact is established. The modi?ed Hertz’s contact law is used to determine the impact contact force. The computing procedures for solving the ?nite element equation using Newmark direct integration method are given. The numerical modelling results show that the SMA can e?ectively improve the low velocity impact resistance performance of composite plate. This paper analyzes the characteristics of utilizing shape memory e? Ect (SME) of shape memory alloy (SMA) in improving the low velocity impact resistance performance of com- posite plate by using? Nite element method. The constitutive relation for SMA hybrid composite plates is presented. The analytic model of? nite element for SMA composite plate subjected to low velocity impact is established. The modi? ed Hertz’s contact law is used to determine the impact contact force. The computing procedures for solving the? nite element equation using Newmark direct integration method are given. The numerical modeling results show that the SMA can e? ectively improve the low velocity impact resistance performance of composite plates.