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Elastic modeling of bone at nanostructural level
Elham Hamed,
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
Center for the Study of Global Gender Equity
Research output
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peer-review
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Keyphrases
Mineralized Collagen Fibril
100%
Elastic Modeling
100%
Nanostructural
100%
Collagen-hydroxyapatite
83%
Finite Element Method
33%
Collagen Molecule
33%
Collagen Cross-linking
33%
Computational Model
33%
Strength of Materials
33%
Biomaterials
16%
Non-collagenous Proteins
16%
Hierarchical Structure
16%
Elastic Response
16%
Micromechanics
16%
Composite Materials
16%
Continuum Model
16%
Molecular Dynamics Simulation
16%
Complete Model
16%
Collagen Fibrils
16%
Molecular Dynamics
16%
Structural Features
16%
Atomistic Simulation
16%
Small Region
16%
Surface Coating
16%
Structure-property Relationships
16%
Mechanical Properties
16%
Bone Tissue Regeneration
16%
Material Model
16%
Biological Aspects
16%
Bone Substitutes
16%
Hydroxyapatite Nanocomposite
16%
High Fracture Toughness
16%
Approximate Solution
16%
Atomic Level
16%
High Strength-toughness
16%
Implant Materials
16%
Physical Characterization
16%
Mechanical Aspects
16%
Connective Tissue
16%
Hydroxyapatite Nanocrystals
16%
Orthopedic Applications
16%
Physical-mechanical
16%
Geometrical Model
16%
Material Approaches
16%
Voigt Bound
16%
Hydroxyapatite Composite
16%
Overall Behaviors
16%
Nanocomposite Materials
16%
Excellent Mechanical Properties
16%
Cross-linked Collagen
16%
Physical Aspects
16%
High Stiffness
16%
Mechanical Characterization
16%
Reuss Bound
16%
Micromechanics Approach
16%
Engineering
Nanoscale
100%
Materials Mechanics
66%
Finite Element Method
66%
Micromechanics
66%
Collagen Cross
66%
Nanocomposite
66%
Complete Model
33%
Composite Material
33%
Impact Toughness
33%
Computer Simulation
33%
Limitations
33%
Atomistic Simulation
33%
Building Block
33%
Bone Tissue Regeneration
33%
Implant
33%
Material Model
33%
Bone Substitutes
33%
Noncollagenous Protein
33%
Surface Coating
33%
Elastic Response
33%
Orthopedic Application
33%
Approximate Solution
33%
Material Science
Finite Element Method
100%
Micromechanics
100%
Nanocomposites
100%
Materials Mechanics
100%
Mechanical Strength
50%
Composite Material
50%
Nanocrystalline Material
50%
Biomaterial
50%
Fracture Toughness
50%
Surface Coating
50%
Mechanical Testing
50%
Implant Material
50%