2016-11-182012-12-031617-7061http://hdl.handle.net/10784/9676Wave propagation in highly porous materials has a well established theoretical background -- Still there are parameters which require complex laboratory experimentation in order to find numerical values -- This paper presents an effective method to calculate the tortuosity of aluminum foam using numerical simulations -- The work flow begins with the acquisition of the foam geometry by means of a micro-CT scanner and further image segmentation and analysis -- The elastodynamic wave propagation equation is solved using a velocity-stress rotated staggered finite-difference technique -- The effective wave velocities are calculated and using the fluid and, aluminum effective properties, the tortuosity is determinedapplication/pdfenginfo:eu-repo/semantics/closedAccessinfo:eu-repo/semantics/articlePROPAGACIÓN DE ONDASMATERIALES POROSOSSIMULACIÓN POR COMPUTADORESDISEÑO EXPERIMENTALMICROSCOPÍA DE RAYOS XWave propagationPorous materialsComputer simulationExperimental designX-ray microscopyWave propagationPorous materialsComputer simulationExperimental designX-ray microscopyEspumas de aluminioMicrotomografía computarizada (Micro-CT) de rayos XElastodinámicaAcceso cerrado2016-11-18Uribe, DavidSaenger, ErikJänicke, RalfSteeb, HolgerRuíz, Oscar10.1002/pamm.201210266