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Tribology Letters

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01.09.2018 | Original Paper

Numerical Model of the Slithering Snake Locomotion Based on the Friction Anisotropy of the Ventral Skin

verfasst von: A. E. Filippov, G. Westhoff, A. Kovalev, S. N. Gorb

Erschienen in: Tribology Letters | Ausgabe 3/2018

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Abstract

Snakes are able to dynamically change their frictional interactions with a surface by at least three different methods: (1) adjusting the attitude of their scales, (2) redistributing their weight at various points of contact with the substrate, and (3) changing of their winding angles. In the present study, we have observed that snakes change their winding angles, when either friction anisotropy is suppressed by particular roughness of the substrate, or when the external force displacing snake overcomes friction resistance during their locomotion on inclines. In order to understand this behaviour and may be even to predict the specific way of the snake locomotion depending on the interactions between the ventral surface of the snake skin and the substrate, numerical modelling was undertaken. Adaptation of the winding curvature considered in the present study has something to do with an enhancement of friction anisotropy in critical behavioural situations, such as on low-friction substrates or while moving up and down a slope.

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Abdel-Aal, H.A., Vargiolu, R., Zahouani, H., El Mansori, M.: Preliminary investigation of the frictional response of reptilian shed skin. Wear. 290–291, 51–60 (2012)CrossRef

Abdel-Aal, H.A.: Surface structure and tribology of legless squamate reptiles. J Mech Behav Biomed Mat. 79, 354–398 (2018). https://doi.org/10.1016/j.jmbbm.2017.11.008 CrossRef

Alben, S.: Optimizing snake locomotion in the plane. Proc R Soc A. 469, 20130236 (2013). https://doi.org/10.1098/rspa.2013.0236 CrossRef

Baum, M.J., Kovalev, A.K., Michels, J., Gorb, S.N.: Anisotropic friction of the ventral scales in the snake Lampropeltis getula californiae. Tribol Lett. 54(2), 139–150 (2014). https://doi.org/10.1007/s11249-014-0319-y CrossRef

Berthé, R.A., Westhoff, G., Bleckmann, H., Gorb, S.N.: Surface structure and frictional properties of the Amazon tree boa Corallus hortulanus (Squamata, Boidae). J Comp Physiol A. 195, 311–318 (2009)CrossRef

Bowden, F.P., Tabor, D.: The friction and lubrication of solids. Clarendon Press, Wotton-under-Edge (1986)

Chiasson, R.B., Lowe, C.H.: Ultrastructural scale patterns in Nerodia and Thamnophis. J Herpetol. 23, 109–118 (1989)CrossRef

Filippov, A., Gorb, S.N.: Frictional-anisotropy-based systems in biology: structural diversity and numerical model. Sci Rep. 3, 1240 (2013). https://doi.org/10.1038/srep01240 CrossRef

Filippov, A.E., Gorb, S.N.: Modelling of the frictional behaviour of the snake skin covered by anisotropic surface nanostructures. Sci Rep. 6, 23539 (2016). https://doi.org/10.1038/srep23539 CrossRef

10.

Gans, C.: Slide-pushing: a transitional locomotor method of elongate squamates. Symp Zool Soc Lond. 52, 12–26 (1984)

11.

Gower, D.J.: Scale microornamentation of uropeltid snakes. J Morphol. 258, 249–268 (2003)CrossRef

12.

Hazel, J., Stone, M., Grace, M.S., Tsukruk, V.V.: Nanoscale design of snake skin for reptation locomotions via friction anisotropy. J. Biomech. 32, 477–484 (1999)CrossRef

13.

Hoge, A.R., Santos, P.S.: Submicroscopic structure of “stratum corneum” of snakes. Science. 118, 410–411 (1953)CrossRef

14.

Hu, L.D., Nirody, J., Scott, T., Shelley, M.J.: The mechanics of slithering locomotion. Proc Natl Acad Sci USA. 106, 10081–10085 (2009)CrossRef

15.

Irish, F.J., Williams, E.E., Seling, E.: Scanning electron microscopy of changes in epidermal structure occurring during the shedding cycle in squamate reptiles. J Morphol. 197, 105–126 (1988)CrossRef

16.

Jayne, B.C.: Kinematics of terrestrial snake locomotion. Copeia. 22, 915–927 (1986)CrossRef

17.

Maderson, P.F.A.: When? why? and how? Some speculations on the evolution of the vertebrate integument. Am Zool. 12, 159–171 (1972)CrossRef

18.

Marvi, H., Hu, D.L.: Friction enhancement in concertina locomotion of snakes. J R Soc Interface. 9–76, 3067–3080 (2012)CrossRef

19.

Picado, C.: Epidermal microornaments of the Crotalinae. Bull Antivenin Inst Am. 4, 104–105 (1931)

20.

Price, R.M.: Dorsal snake scale microdermatoglyphics: ecological indicator or taxonomic tool? J Herpetol. 16, 294–306 (1982)CrossRef

21.

Price, R.M., Kelly, P.: Microdermatoglyphics: basal patterns and transition zones. J Herpetol 23, 244–261 (1989)CrossRef

22.

Renous, S., Gasc, J.P., Diop, A.: Microstructure of the tegumentary surface of the Squamata (Reptilia) in relation to their spatial position and their locomotion. Fortschr Zool. 30, 487–489 (1985)

23.

Scherge, M., Gorb, S.N.: Biological micro- and nanotribology. Springer, New York (2001)CrossRef

24.

Schmidt, C.V., Gorb, S.N.: Snake scale microstructure: phylogenetic significance and functional adaptations. Schweizerbart Science Publisher, Stuttgart (2012)

25.

Wang, X., Osborne, M.T., Alben, S.: Optimizing snake locomotion on an inclined plane. Phys Rev E. 89, 012717 (2014)CrossRef

Titel: Numerical Model of the Slithering Snake Locomotion Based on the Friction Anisotropy of the Ventral Skin
verfasst von: A. E. Filippov
G. Westhoff
A. Kovalev
S. N. Gorb
Publikationsdatum: 01.09.2018
Verlag: Springer US
Erschienen in: Tribology Letters / Ausgabe 3/2018
Print ISSN: 1023-8883
Elektronische ISSN: 1573-2711
DOI: https://doi.org/10.1007/s11249-018-1072-4

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