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Researchers: [‣ ], [‣ ], [‣ ]
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Collaborators: N/A
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This research experimentally investigates the unique vibration characteristics of Resch-patterned origami metal panels, revealing a transformative approach to structural dynamics. Unlike conventional flat plates that rapidly propagate energy across their entire surface, the Resch panel exhibits a distinct vibration localization phenomenon under transient impulse excitation. While the temporal decay is significantly slower than that of a standard plate, the vibration energy remains spatially confined near the excitation point, effectively trapping the kinetic energy. These findings suggest that origami-engineered surfaces can serve as a novel, geometry-driven solution for vibration isolation and noise reduction in advanced mechanical systems.
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**Schematic Diagram**
**Origami-Patterned Plate**
**Experiment Setup**
**Installation of Two Types of Panel**
**Acceleration Response to Impulse (1ms, rectangular) Black-Flat Panel, Orange-Origami Panel**
**Distance from Excitation vs. Intensity**
Spatial Distribution of Acceleration Intensity
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