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Predicting fracture in the proximal humerus using phase field models
L. Hug
, G. Dahan
, S. Kollmannsberger
, E. Rank
, Z. Yosibash
Technical University of Munich
Tel Aviv University
Research output
:
Contribution to journal
›
Article
›
peer-review
18
Scopus citations
Overview
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Keyphrases
Humerus
100%
Phase-field Model
100%
Proximal Humerus
100%
Phase-field Method
75%
Fresh-frozen
50%
Failure Pattern
50%
Failure Load
50%
Surgical Neck
50%
Strain Relationship
25%
Compressive Strain
25%
Evolutionary Patterns
25%
Maximum Absolute Errors
25%
Mechanical Response
25%
Strain Response
25%
Elastic Regime
25%
Finite Element Method
25%
Response Error
25%
Proximal Humerus Fracture
25%
Digital Image Correlation
25%
CT-based Finite Element Method
25%
Experimental Strains
25%
Mechanical Fracture
25%
Failure Fracture
25%
Humeral Fractures
25%
Compressive Failure
25%
Fracture Evolution
25%
Fracture Path
25%
Heterogeneous Mechanical Properties
25%
Finite Cell Method
25%
Clinical Concerns
25%
Regularization Parameter
25%
Elderly Population
25%
Material Science
Finite Element Method
100%
Phase Field Model
100%
Impacted Fracture
50%
Mechanical Property
50%
Earth and Planetary Sciences
Field Method
100%
Engineering
Failure Pattern
50%