Recently, titanium metal foams are being considered as a suitable replacement for substituting trabecular bone microstructure especially for their similar pore distributi [...]

This paper deals with modification and usage of custom-designed compression device, that allows real time X-ray tomography scanning of specimen under applied pres sure. [...]

Microstructural finite element analysis has become a standard technique for evaluation of mechanical properties of trabecular bone. Due to the high complexity of the tra [...]

The aim of the paper is to develop a procedure for determination of elasto-visco-plastic constitutive model with damage for human single trabecula. The procedure is suit [...]

The paper is focused on possibilities of modern X-ray detectors and micro-focus X-ray source for investigation of early degradation processes of acetabular implants. To s [...]

Aluminum foams are structural materials with excellent energy absorption capacity jointed with very low specific weight and high stiffness. Products of aluminum foams are [...]

The paper deals with investigation of trabecular bone behaviour using micromechanical Finite Element models of its inner structure. Material properties of the μFE models [...]

The paper deals with investigation of trabecular bone microstructure using real–time microtomography. Recorded μCT scans are used to record spatial mechanical behaviou [...]

In the article a detailed comparison of techniques used to develop detailed FE models of trabecular bone microstructure is presented. The FE models are built using a stac [...]