Out-of-plane buckling of pantographic fabrics in displacement-controlled shear tests: experimental results and model validation

Due to the latest advancements in 3D-printing technology and rapid prototyping techniques, the production of materials with complex geometries has become more affordable than ever. Pantographic structures, because of their attractive features, both in dynamics and statics and both in elastic and inelastic deformation regimes, deserve to be thoroughly investigated with experimental and theoretical tools. Herein, experimental results relative to displacement-controlled large deformation shear loading tests of pantographic structures are reported. In particular, five differently sized samples are analyzed up to first rupture. Results show that the deformation behavior is strongly non-linear, and the structures are capable of undergoing large elastic deformations without reaching complete failure. Finally, a cutting-edge model is validated by means of these experimental results.