When Animals Turn Inside Out: The Eversion of Bloodworms
Kim, S.; Tuma, A.; Qin, D.; Ryu, Y. J.; Kim, D.; Abhilash, A.; Chintawar, S.; Thomas-Holness, C.; Fladger, A.; Behravesh, E.; Zhen, Y.; Zhou, Y.; Thompson, J. T.; Hu, D. L.
Show abstract
Bloodworms, Glycera dibranchiata, possess an eversible proboscis that normally remains concealed within their bodies but explosively everts if the worm attacks or burrows. How does the bloodworm evert quickly and reliably? In a series of experiments, we characterize bloodworm kinematics, pressure, and material properties to estimate the criteria for eversion safely without rupture of the proboscis. We predict the proboscis can withstand pressures 50 times higher and bending strains up to three times higher than the respective values observed. We also present a dimensional analysis of eversion, finding that everting animals, from frogs to snails to sharks, do not satisfy Froudes law for equivalence of velocities. Our findings may help inspire the development of pressure-driven soft robots with efficient retraction capabilities.
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