Abstract
Abstract In this study wrinkling behavior of membrane structures was investigated by visual methods. A dual-biprism-based stereo camera system was employed to obtain image pairs of the membranes before and after deformation. The digital image correlation (DIC) method was used to determine the out-of-plane displacements, wrinkle amplitudes, and strain distributions of the membranes, which were subjected to different shearing loadings. Moreover, the critical wrinkle strains were calculated based on the tension field theory. To elucidate the effects of the length/width ratio on the wrinkling behavior, wrinkling experiments were performed on specimens with four different length/width ratios but the same thickness. In addition, the surface and internal in-plane stresses of the structures were determined by both three-dimensional DIC and the digital gradient sensing method. The results indicated that a stress-change occurs between the membrane surface and its inner structure. Finally, the critical shear displacements determined using the two methods were found to be very close.
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