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Mantis Shrimp’s Striking Appendage as Natural Metamaterial: New research shows the mantis shrimp’s hammer-like limb (dactyl club) functions as a natural phononic metamaterial, challenging the notion that such materials are exclusive to lab creation.
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Dual Mechanical Advantage: The club both withstands forceful impacts and controls energy propagation, providing protection from recoil.
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Hierarchical Structure: The club’s design includes a hydroxyapatite surface for dispersing impact, spring-like tendons for shock absorption, and biopolymer fibers in a periodic pattern for reducing damage from repeated strikes.
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Phononic Bandgap Discovery: The study revealed the internal arrangement of the microstructure serves as phononic bandgap which prevents energy waves of certain frequencies from passing through.
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How the Mantis Shrimp Strikes:
- Releases energy from spring-like structures.
- Displaces water creating low-pressure zones.
- Bubble implosions create a second blow from heat and shockwaves.
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Impact on Material Science: The findings confirm that nature has evolved metamaterials, altering scientists’ understanding of biological material design.
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Potential Applications: The research could inspire the development of synthetic sound-filtering materials for protective gear, methods for reducing blast-related injuries, and energy-harvesting applications based on trapping and converting mechanical energy.
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Ecological and Scientific Significance: Mantis shrimp are important for controlling prey populations and nutrient cycling in reef ecosystems. Their unique eye structure and club mechanism are also inspiring advancements in optical sensor technology, armor engineering, and aerospace engineering.
