Bending mechanics of the red-eared slider turtle carapace

Ben Achrai, Benny Bar-On, H. Daniel Wagner

Research output: Contribution to journalArticlepeer-review

46 Scopus citations

Abstract

The turtle shell is a natural shield that possesses complex hierarchical structure, giving rise to superior mechanical properties. The keratin-covered boney top (dorsal) part of the shell, termed carapace, is composed of rigid sandwich-like ribs made of a central foam-like interior flanked by two external cortices. The ribs are attached to one another in a 3-D interdigitated manner at soft unmineralized collagenous sutures. This unique structural combination promotes sophisticated mechanical response upon predator attacks.In the present study mechanical bending tests were performed to examine the static behavior of the red-eared slider turtle carapace, in different orientations and from various locations, as well as from whole-rib and sub-layer regions. In addition, the suture properties were evaluated as well and compared with those of the rib. A simplified classical analysis was used here to rationalize the experimental results of the whole rib viewed as a laminated composite.The measured strength (~300. MPa) and bending modulus (~7-8.5. GPa) of the rib were found to be of the same order of magnitude as the strength and modulus of the cortices. The theoretical prediction of the ribs' moduli, predicted in terms of the individual sub-layers moduli, agreed well with the experimental results. The suture regions were found to be more compliant and weaker than the ribs, but comparatively tough, likely due to the interlocking design of the boney zigzag elements.

Original languageEnglish
Pages (from-to)223-233
Number of pages11
JournalJournal of the Mechanical Behavior of Biomedical Materials
Volume30
DOIs
StatePublished - 1 Jan 2014
Externally publishedYes

Keywords

  • Biological composites
  • Flexural rigidity
  • Laminated structure
  • Three-point bending
  • Turtle carapace

ASJC Scopus subject areas

  • Biomaterials
  • Biomedical Engineering
  • Mechanics of Materials

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