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Volumn 52, Issue 1, 2012, Pages 128-135
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Micro-scale modelling of bovine cortical bone fracture: Analysis of crack propagation and microstructure using X-FEM
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Author keywords
Bovine cortical bone; Extended finite element method; Finite element analysis; Fracture; Microcrack; Nanoindentation
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Indexed keywords
BONE LOSS;
CEMENT LINE;
COMPOSITE MODELS;
CORTICAL BONE;
CRACK PROPAGATION PATH;
CROSS SECTION;
EXTENDED FINITE ELEMENT METHOD;
EXTERNAL LOADS;
FINITE ELEMENT SOFTWARE;
FINITE-ELEMENT;
FINITE-ELEMENT ANALYSIS;
FINITE-ELEMENT MODELS;
FOUR-PHASE;
FRACTURE MODEL;
GLOBAL RESPONSE;
LOCALIZATION OF DEFORMATION;
MACRO SCALE;
MATERIAL PROPERTY;
MAXIMUM PRINCIPAL STRESS;
MICRO-SCALES;
MICRO-STRUCTURAL;
MICROSCOPIC LEVELS;
MICROSTRUCTURE CHANGES;
NANOINDENTATION TECHNIQUES;
NON-UNIFORM DISTRIBUTION;
OSTEONS;
PROPAGATION PROCESS;
STRESS FIELD;
TENSILE LOADING CONDITION;
THREE-PHASE COMPOSITES;
ABAQUS;
BONE;
BONE CEMENT;
COMPUTER SIMULATION;
CRACK PROPAGATION;
CRACKS;
FINITE ELEMENT METHOD;
MATERIALS PROPERTIES;
MECHANICAL PROPERTIES;
MICROSTRUCTURE;
NANOINDENTATION;
NUMERICAL METHODS;
OPTICAL MICROSCOPY;
STRESS ANALYSIS;
TISSUE;
TOPOLOGY;
FRACTURE;
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EID: 80255138748
PISSN: 09270256
EISSN: None
Source Type: Journal
DOI: 10.1016/j.commatsci.2011.01.021 Document Type: Conference Paper |
Times cited : (123)
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References (31)
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