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Cortical bone fracture analysis using XFEM – case study
Ashraf Idkaidek,
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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Keyphrases
70 Years Old
20%
ABAQUS
20%
Accurate Simulation
20%
Addition Effect
20%
Bone Crack
20%
Bone Fracture
100%
Cement Line
20%
Cohesive Segment
100%
Cortical Bone
100%
Crack Initiation
20%
Crack Propagation
20%
Crack Propagation Rate
40%
Damage Evolution
20%
Diaphysis
20%
Element Type
20%
Extended Finite Element Method
40%
Fine Mesh
20%
Finite Element
20%
Finite Element Software
20%
Fracture Analysis
100%
Fracture Mechanics
40%
Full Integration
20%
Human Cortical Bone
20%
Human Males
20%
Influence Analysis
20%
Linear Elastic
20%
Linear Elastic Fracture Mechanics
40%
Male Donor
20%
Material Properties
20%
Mesh Density
40%
Microscopic Image
20%
Nanoindentation
20%
Osteon
20%
Reduced Integration
20%
Segment Damage
20%
Size-density
20%
Tibia
20%
Traction-separation Law
20%
Two Dimensional
20%
Unit Cell Model
20%
Engineering
Abaqus
25%
Accurate Simulation
25%
Boundary Condition
25%
Cell Model
25%
Crack Initiation
25%
Crack Propagation
25%
Crack Propagation Speed
50%
Damage Evolution
25%
Element Type
25%
Energy Engineering
25%
Fine Mesh
25%
Finite Element Method
100%
Fracture Analysis
100%
Integration Element
50%
Linear Elastic Fracture Mechanic Approach
50%
Reduced Integration
25%
Separation Law
25%
Two Dimensional
25%