Zhao, L.; Shang, Z.; Zhang, T.; Liu, Z.; Han, L.; Wang, C. Analysis of Mechanical Behaviors of Waterbomb Thin-Shell Structures under Quasi-Static Load. AIP Advances 2021, 11, 055215, doi:10.1063/5.0050396.
Zhao, L.; Shang, Z.; Zhang, T.; Liu, Z.; Han, L.; Wang, C. Analysis of Mechanical Behaviors of Waterbomb Thin-Shell Structures under Quasi-Static Load. AIP Advances 2021, 11, 055215, doi:10.1063/5.0050396.
Zhao, L.; Shang, Z.; Zhang, T.; Liu, Z.; Han, L.; Wang, C. Analysis of Mechanical Behaviors of Waterbomb Thin-Shell Structures under Quasi-Static Load. AIP Advances 2021, 11, 055215, doi:10.1063/5.0050396.
Zhao, L.; Shang, Z.; Zhang, T.; Liu, Z.; Han, L.; Wang, C. Analysis of Mechanical Behaviors of Waterbomb Thin-Shell Structures under Quasi-Static Load. AIP Advances 2021, 11, 055215, doi:10.1063/5.0050396.
Abstract
Waterbomb structures are origami-inspired deformable structural components used in new types of robots. They have a unique radially deployable ability that enables robots to better adapt to their environment. In this paper, we propose a series of new waterbomb structures with square, rectangle, and parallelogram base units. Through quasi-static axial and radial compression experiments and numerical simulations, we prove that the parallelogram waterbomb structure has a twist displacement mode along the axial direction. Compared with the square waterbomb structure, the proposed optimal design of the parallelogram waterbomb structure reduces the critical axial buckling load-to-weight ratio by 55.4% and increases the radial stiffness-to-weight ratio by 67.6%. The significant increase in the radial stiffness-to-weight ratio of the waterbomb structure and decrease in the critical axial buckling load-to-weight ratio make the proposed origami pattern attractive for practical robotics applications.
Copyright:
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