Titlebook: Mechanics of Biological Systems and Materials, Volume 5; Proceedings of the 2 Barton C. Prorok,François Barthelat,Pablo Zavattie Conference

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Mechanics of Biological Systems and Materials, Volume 5Proceedings of the 2

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Bradley W. LaCroix,Peter G. Ifju,Karl J. Soderholm,Saulo Geraldeli

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Interfacial Fracture Toughness of Nacre,e main contribution to the toughness originates from a multitude of extrinsic toughening mechanisms including ligament bridging, crack deflection, and process zone effect. While the same is true for the other two shells, the toughening mechanisms are less pronounced. This finding clearly emphasizes

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Porous Hydroxyapatite-Polyhydroxybutyrate Composites Fabricated by a Novel Method Via Centrifugatioength with the addition of PHB. The filled composites showed no change in stiffness from the addition of PHB, while the coated composites showed an increase in stiffness over the original HA scaffolds from ~35 to ~105 MPa. The enhanced stiffness in the coated composites was due to strong interaction

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Brain Mechanical Imaging (BMI),rizing different central nervous system disease models. While no single brain imaging modality can fully address the pathologies of different diseases, mechanical markers are proven to be effective in detecting different classes of brain diseases. This work aimed at: (1) designing, implementing, and

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Characterization of Murine Glioma by Magnetic Resonance Elastography: Preliminary Results,In this regard, MRE has considerable potential for staging cancer and monitoring the effects of therapy. We seek to demonstrate the utility of MRE for cancer staging by tracking the viscoelastic properties of brain tumor in a mouse model of high-grade glioma. Brain tissue viscoelasticity cannot be p