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Numerical modelling of cancellous bone damage using an orthotropic failure criterion and tissue elastic properties as a function of the mineral content and microporosity

Raquel Megías, Ana Vercher-Martínez, Ricardo Belda, José Luis Peris Serra, Ricardo Larrainzar‐Garijo, Eugenio Giner, F.J. Fuenmayor

2022Computer Methods and Programs in Biomedicine13 citationsDOIOpen Access PDF

Topics & Concepts

Orthotropic materialCancellous boneIsotropyLamellar structureMaterials scienceHomogenization (climate)Bone tissueComposite materialStiffnessMechanicsBiomedical engineeringFinite element methodAnatomyThermodynamicsPhysicsQuantum mechanicsBiodiversityBiologyMedicineEcologyBone health and osteoporosis researchElasticity and Material ModelingComposite Material Mechanics
Numerical modelling of cancellous bone damage using an orthotropic failure criterion and tissue elastic properties as a function of the mineral content and microporosity | Litcius