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Multi-scale characterization of swine femoral cortical bone
Liang Feng,
Iwona Jasiuk
Mechanical Science and Engineering
National Center for Supercomputing Applications (NCSA)
Beckman Institute for Advanced Science and Technology
Bioengineering
Carl R. Woese Institute for Genomic Biology
Aerospace Engineering
Biomedical and Translational Sciences
Civil and Environmental Engineering
Women & Gender in Global Perspectives
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Dive into the research topics of 'Multi-scale characterization of swine femoral cortical bone'. Together they form a unique fingerprint.
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Keyphrases
Cortical Bone
100%
Swine
100%
Chemical Composition
100%
Multiscale Characterization
100%
Femoral Cortical Bone
100%
Old Animals
100%
Elastic Modulus
66%
Structural Change
66%
Mechanical Properties
66%
Age-related Changes
66%
Changes with Age
66%
Hierarchical Structure
33%
Microcomputed Tomography
33%
Scanning Electron Microscopy
33%
Lamellae
33%
Fourier Transform Infrared Microspectroscopy
33%
Bone Structure
33%
Mineralized Collagen Fibril
33%
Heterogeneous Materials
33%
Nanoindentation
33%
Tensile Test
33%
Chemical Changes
33%
Bone Level
33%
Dominant Features
33%
Compositional Properties
33%
Lamellar Structure
33%
Lamellar Bone
33%
Mineral Content
33%
Resorption
33%
Local Modulus of Elasticity
33%
Secondary Osteon
33%
Structure Composition
33%
Dual-energy X-ray Absorptiometry
33%
Ash Content
33%
Ultimate Tensile Strength
33%
Engineering
Microscale
100%
Multiscale
100%
Mesoscale
80%
Young's Modulus
60%
Energy Engineering
20%
Nanoscale
20%
Experimental Work
20%
Fourier Transform
20%
Experimental Result
20%
Tensile Testing
20%
Ultimate Tensile Strength
20%
Lamellar Structure
20%
Lamellar Bone
20%
Resorption
20%
Ash Content
20%
Material Science
Elastic Moduli
100%
Tomography
33%
Scanning Electron Microscopy
33%
Heterogeneous Material
33%
Tensile Testing
33%
Ultimate Tensile Strength
33%
Nanoindentation
33%
Lamellar Structure
33%
Structure (Composition)
33%