Abstract
Based on different damage forms of various contact forms to bone, the mechanical response and mechanism were investigated by nanoindentation under different sharpness contact forms. For the purpose of simulating the different sharpness contact forms, two kinds of indenters were used in experiments and finite elements simulations. Through nanoindentation experiments, it was concluded that the residual depth of sharp indenter was bigger than that of blunt indenter with small penetration depth. However, the contrary law was obtained with bigger penetration depth. There was a turning point of transition from blunt tendency to sharp tendency. By calculation, it was concluded that the sharper the indenter was, the bigger the proportion of plastic energy in total energy was. Basically, results of finite elements simulation could correspond with the experimental conclusions. By the observation of FE-SEM, the surface of cortical bone compressed was more seriously directly below the blunt indenter than the lateral face. For the berkovich indenter, the surface of indentation compressed was less directly below the indenter, but seriously on three lateral faces. This research may provide some new references to the studies of bone fracture mechanism in different load patterns in the initial press-in stage and offer new explanation for bone trauma diagnosis in clinical treatment and criminal investigation.
Highlights
Cortical bone is a very important structural and function material, providing the shapes of biosome and carrying out function.[1]
It could be seen that the range of residual penetration depth of cortical bone under sphere indenter was bigger than that under berkovich indenter
The mechanical response of cortical bone to different contact sharpness between cortical bone and the external loads was investigated by nanoindentation
Summary
Cortical bone is a very important structural and function material, providing the shapes of biosome and carrying out function.[1] Bone is a biological composite material consisting of fibers embedded in an interstitial matrix, similar to man-made composite materials.[2,3] Cortical bone, as a composite biomaterial, has wonderful mechanical properties, which was achieved by the integrality of its particular hierarchical structure. More and more reality and sudden situation pose threats to the integrality of cortical bone, such as traffic accidents, falling and so on.[4,5,6] It is vitally important to carry out researches on bone fracture and explore the potential mechanism. It could be seen that the fracture types were different under different load applied. The mechanism of fracture under different load patterns has been researched by many authors.[8,9,10]
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