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Effect of specimen geometry on tensile strength of 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 'Effect of specimen geometry on tensile strength of cortical bone'. Together they form a unique fingerprint.
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Keyphrases
Arc Transition
33%
Cortical Bone
100%
Dumbbell
66%
Dumbbell Specimen
33%
Dumbbell-shaped
33%
Fillet
33%
Finite Element Method
33%
High Stress Concentration
33%
Local Stress Concentration
33%
Low Stress
33%
Porcine Femur
33%
Specimen Geometry
100%
Specimen Shape
66%
Stress Concentration
100%
Tensile Strength
100%
Tensile Test
33%
Tensile Test Specimens
66%
Ultimate Tensile Strength
33%
Engineering
Finite Element Method
33%
Gauge Section
33%
Good Choice
33%
Local Stress
33%
Measured Strength
33%
Reduced Value
33%
Specimen Geometry
100%
Stress Concentration
100%
Stress Concentration Factor
33%
Tensile Test
100%
Test Specimen
66%
Ultimate Tensile Strength
100%
Material Science
Finite Element Method
33%
Mechanical Strength
33%
Stress Concentration
100%
Stress Concentration Factor
33%
Ultimate Tensile Strength
100%