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Nanoindentation and Hierarchy Structure of the Bovine Hoof Wall
Authors:Bingfeng Wang  Yiyu Huang  Bingqing Zhou  Wenshu Li  Haoyu Chen
Affiliation:1.School of Materials Science and Engineering, Central South University, Changsha 410083, China; (Y.H.); (B.Z.); (W.L.); (H.C.);2.State Key Laboratory for Powder Metallurgy, Central South University, Changsha 410083, China
Abstract:The bovine hoof wall with an α-keratin structure protects the bovine foot from impact loads when the cattle are running. Reduced modulus, hardness and creep behavior of the bovine hoof wall have been investigated by a nanoindentation technique. The average reduced modulus of the Transverse Direction (TD) specimens from the outside to inside wall is 3.76 and 2.05 GPa, respectively, while the average reduced modulus of the Longitudinal Direction (LD) specimens from the outside to inside wall is 4.54 and 3.22 GPa, respectively. Obviously, the orientation and the position of the bovine hoof wall have a significant influence on its mechanical properties. The use of the generalized Voigt–Kelvin model can make a good prediction of creep stage. Mechanical properties of the LD specimens are stronger than those of the TD specimens. The bovine hoof wall has a layered structure, which can effectively absorb the energy released by the crack propagation and passivate the crack tip. Therefore, a kind of structural model was designed and fabricated by three-dimensional printing technology, which has a 55% performance improvement on fracture toughness. It is believed that the reported results can be useful in the design of new bionic structure materials which may be used in motorcycle helmets and athletes’ protective equipment to achieve light weight and improved strength at the same time.
Keywords:mechanical property   biological materials   3D printing   microstructure
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