Juan Velázquez-Ameijide scite author profile

A large number of post mortem human subjects was used to investigate the relation between the micro-structure of rib cortical bone and the mechanical properties using Fractal Dimension. Uniaxial tensile tests were performed on coupons of rib cortical bone. Tensile strength, yield stress, Young's Modulus, maximum strain, and work to fracture were determined for each cou-pon. Fractal dimension was computed using CT images and Digital Image Correlation proce-dures. A highly significant effect of fractal dimension in the mechanical properties was found. In addition, the variation in mechanical properties was found to be adequately represented by Generalized Extreme Value type distributions.

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A stochastic model for soft tissue failure using acoustic emission data

Sánchez-Molina¹,

Martínez-González²,

Velázquez-Ameijide³

et al. 2015

Journal of the Mechanical Behavior of Biomedical Materials

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Mechanical Behavior of Blood Vessels: Elastic and Viscoelastic Contributions

Sánchez-Molina

García-Vilana

Llumà

et al. 2021

Biology

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The mechanical properties of the cerebral bridging veins (CBVs) were studied using advanced microtensile equipment. Detailed high-quality curves were obtained at different strain rates, showing a clearly nonlinear stress–strain response. In addition, the tissue of the CBVs exhibits stress relaxation and a preconditioning effect under cyclic loading, unequivocal indications of viscoelastic behavior. Interestingly, most previous literature that conducts uniaxial tensile tests had not found significant viscoelastic effects in CBVs, but the use of more sensitive tests allowed to observe the viscoelastic effects. For that reason, a careful mathematical analysis is presented, clarifying why in uniaxial tests with moderate strain rates, it is difficult to observe any viscoelastic effect. The analysis provides a theoretical explanation as to why many recent studies that investigated mechanical properties did not find a significant viscoelastic effect, even though in other circumstances, the CBV tissue would clearly exhibit viscoelastic behavior. Finally, this study provides reference values for the usual mechanical properties, as well as calculations of constitutive parameters for nonlinear elastic and viscoelastic models that would allow more accurate numerical simulation of CBVs in Finite Element-based computational models in future works.

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Indentation response of human patella with elastic modulus correlation to localized fractal dimension and bone mineral density

Kerrigan

Sánchez-Molina

Neggers

et al. 2014

Journal of the Mechanical Behavior of Biomedical Materials

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