Extended higher-order modeling of a 3D nanocomposite reinforced intelligent panel for skiing tools in ice and snow athlete training

This article presents a comprehensive multi-field analysis on the analysis of hybrid sandwich curved shell composed of a metal matrix core reinforced with tunable three-dimensional origami-enabled reinforcement. The characteristics and governing equations are derived using the energy-based formulation and a minimization process. The hybrid modeling is performed with accounting the multi-loading structures as an attachment. The characterized material properties are evaluated using the experimental and statistical-based analysis in the material science works. The stress and strain analyses of the composite sandwich curved shell are presented with changes of volume fraction and foldability parameters as well as multi-filed loading along the thickness direction. These materials and structures can be used in electromechanical systems and structures.