Effect of specimen geometry on tensile strength of cortical bone

the graphite single crystal. The compliance constants ~11 and sb4 were determined by resonant bar and compound torsional-oscillator techniques, The stiffness constants cl 1, cia, css, and c44 were determined by an ultrasonic pulse method. All five compliance constants and their associated stressstra

This paper analyses the shape effect on the tensile strength of axisymmetric rock specimens by an improved adaptive dynamic relaxation method. It is shown that the present approach is convenient and &cient. Numerical results for spheroidal specimens with different shapes reveal the variation of stre

## Abstract Human bone is highly heterogeneous at the microscale and this heterogeneity has been thought to relate to some fracture scenarios. The fatigue strength of cortical bone has been shown to relate to its inner architecture (osteonal or fibrolamellar) and some physical characteristics in th

## Background and objective: Laser-assisted tissue repair is often accompanied by a high dehiscence rate, which may be due to alterations in suture material after laser exposure. the goal of this study was to investigate the effect of co2 laser irradiation on the tensile strength of microsurgical s

## Abstract Because internal and external fixation devices alter blood flow, and thus the transport of nutrients to the cortical bone of a healing fracture, we studied the effects of a fluted intrameduilary rod (IMR), a half‐frame external fixator (EF), and a compression plate (PL) on the cortical

## Abstract Fluoride from fluoridated water accumulates not only in the enamel of teeth but also in the skeleton. The effects of fluoridated water on the skeleton are not well understood, yet there is some evidence that fluoridated water consumption increases the incidence of fractures. In the pres