ScienceDaily (Aug. 15, 2012) ? Snakes are highly specialized legless animals, which evolved around 150 million years ago. Although without extremities, their body is exposed to constant friction forces. The PhD-student Marie-Christin Klein and Professor Stanislav Gorb of Kiel University found out how snake skin is adapted to legless locomotion. The skin is stiff and hard on the outside and becomes soft and flexible towards the inside, independent of habitat. Biology could inspire systems in engineering with minimized abrasion.
Klein and Gorb are publishing their current results in the August 15 of the Journal of the Royal Society Interface.
Sakes inhabit all large ecosystems apart from the Polar Regions. They are able to climb trees and burrow underground. The skin, exposed to a good deal of friction, has to last until molding takes place, which is every two to three months. "The skin of snakes therefore has to be optimized against abrasion wear," assumed Marie-Christin Klein at the beginning of her research.
With Stanislav Gorb she examined the skin of four snake species: sand boa (Gongylophis colubrinus), the king snake (Lampropeltis getula californiae), the rainbow boa (Epicrates cenchria cenchria) and the green tree python (Morelia viridis), which inhabit different environments, from the desert to tropical trees. "With the help of these four species we found out that the skin architecture differs depending on habitat. However, all show a gradient in material properties. This means that the skin of all species has a stiff and hard outside and becomes more flexible and soft towards the inside, even though the skin differs in thickness and structure depending on species," explains Klein her findings, which confirm her assumption that the skin of snakes is optimized against abrasion wear. The four snake species achieve this mechanical effect by developing for instance different cell types. One species has a relatively thick skin with round cells, while the other has a relatively thin skin with elongated cells. "This speaks for a functional adaptation to legless locomotion, which has developed for snakes in both moist and dry habitats," says Klein.
"This research area is extremely new," Klein reports. "The general composition of snake skin is known, however, but no one has by now examined the impact of this on the mechanical material properties. A material that has a transition from a stiff outside to a flexible inside can distribute an impacting force over a larger area, therefore decreasing the force on one single point. Materials like this are like a flexible amour." Possible application areas can be found in the medical engineering sector, in which friction could for instance be optimized for artificial implants. Furthermore, the propulsion and conveyer technique market could profit from the abrasion minimization findings, since lubrication would have to be implicated less often. The friction system of snake skin is an important model in the bionics research at Kiel University (Group: Zoological Institute, Professor Stanislav N. Gorb) for the development of new and the optimization of already existing materials.
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The above story is reprinted from materials provided by Christian-Albrechts-Universitaet zu Kiel.
Note: Materials may be edited for content and length. For further information, please contact the source cited above.
Journal Reference:
- Marie-Christin G. Klein and Stanislav N. Gorb. Epidermis architecture and material properties of the skin of four snake species. Journal of the Royal Society Interface, August 15, 2012 DOI: 10.1098/rsif.2012.0479
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Source: http://feeds.sciencedaily.com/~r/sciencedaily/most_popular/~3/QAB9ISIL4kw/120815082717.htm
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