Abstract EN:

An industrial piece in a duplex titanium alloy Ti-6Al-4V has been entirely and precisely characterized by an ultrasonic inspection. From a specific machining of specimens, a strong scattering in fatigue life time at room temperature has been revealed. This material presents some morphological and crystallographic textures at different scales. Within this context, an experimental method has been developed in order to study the elementary deformation and damage modes of polycrystalline titanium alloys. Through EBSD (electron backscattering diffraction) measurements coupled with in-situ (SEM) monotonic tensile tests and fatigue tests, the nature of the slip systems and the crack initiation sites (prismatic, basal and pyramidal) in the Ti-6Al-4V alloy have been precisely identified and analyzed in relation with the local crystallographic orientation. Concerning this point, a particular attention has been paid to the influence of the Schmid's factor. The local microstructural conditions favoring fatigue damage have been determined at different scales : microscopic scale of crack initiation and mesoscopic of crystallographic textures. An industrial piece in a duplex titanium alloy Ti-6Al-4V has been entirely and precisely characterized by an ultrasonic inspection. From a specific machining of specimens, a strong scattering in fatigue life time at room temperature has been revealed. This material presents some morphological and crystallographic textures at different scales. Within this context, an experimental method has been developed in order to study the elementary deformation and damage modes of polycrystalline titanium alloys. Through EBSD (electron backscattering diffraction) measurements coupled with in-situ (SEM) monotonic tensile tests and fatigue tests, the nature of the slip systems and the crack initiation sites (prismatic, basal and pyramidal) in the Ti-6Al-4V alloy have been precisely identified and analyzed in relation with the local crystallographic orientation. Concerning this point, a particular attention has been paid to the influence of the Schmid's factor. The local microstructural conditions favoring fatigue damage have been determined at different scales : microscopic scale of crack initiation and mesoscopic of crystallographic textures.