The project deals with titanium and titanium alloys as biomaterials for implants applications, focusing on their mechanical response under dynamic stresses occurring during human activities. From the combined biomechanics requirements, mechanical behaviour of the materials and the bone is analysed and the additional poroelastic behaviour is added for fluidic transport inside porous material undergoing oscillatory mechanical deformation. Experimental tests are performed to validate the model

Titanium alloys and porous coatings for orthopaedic applications

Vettorel, Matteo
2014/2015

Abstract

The project deals with titanium and titanium alloys as biomaterials for implants applications, focusing on their mechanical response under dynamic stresses occurring during human activities. From the combined biomechanics requirements, mechanical behaviour of the materials and the bone is analysed and the additional poroelastic behaviour is added for fluidic transport inside porous material undergoing oscillatory mechanical deformation. Experimental tests are performed to validate the model
2014-12-12
titanium, alloys, orthopaedic prosthesis, mechanical behaviour, dynamic mechanical, porous coating
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/20.500.12608/19634