The mantis shrimp's secret is its tail appendage, called a telson. Engineers have now discovered what allows the telson to absorb the blows of its feisty self, with the goal of applying these lessons to protective gear.
The work, published in the journal Advanced Functional Materials, was performed by a team of researchers including David Kisailus' lab at the University of California, Riverside and Pablo Zavattieri's lab at Purdue University.
A telson can be shaped either as a territorial shield for "smasher" species or as a burrowing shovel for "spearer" species that also stabs prey. The researchers found out how the telson of the smasher, compared to that of the spearer, is better at protecting the mantis.
Their findings reveal that the smasher telson has curved ridges called carinae on the outside and a helicoidal structure shaped like a spiral staircase on the inside. UC Riverside ran tests on both the mantis shrimp itself and 3D-printed replicas of the telson, showing that the carinae both stiffen a smasher's shield and allow it to flex inward.
Together with the helicoidal structure, which prevents cracks from growing upon impact, the shield absorbs significant amounts of energy during a strike without falling apart.
Purdue researchers validated the role of carinae through computational models, simulating the attacks of one mantis against the telson of another. They even "invented" species with features between the smasher and spearer to evaluate which telson offered the best protection for the animal.
"We started with the telson of the spearer and gradually added features that start looking like the smasher," said Zavattieri, a professor of civil engineering at Purdue. A YouTube video is available at https://youtu.be/bXEfWqXyvfA.