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- Title
Estimation of Fracture Toughness by Testing Notched Fracture Specimens and Applying the Theory of Critical Distances.
- Authors
Cicero, S.; Madrazo, V.; Carrascal, I. A.
- Abstract
This paper applies a methodology that allows the fracture toughness of a given material to be estimated by testing notched fracture toughness specimens and applying the Theory of Critical Distances, which requires the elastic stress field at the notch tip to be determined by finite elements simulation. This methodology, which is not intended to substitute any standardised fracture characterisation procedure, constitutes an alternative in those situations where pre-cracking processesmay be too time-consuming, too expensive or, simply, cannot be performed. It comprises testing two notched specimens with different notch radii, defining the corresponding stress fields at fracture by using finite elements analysis, and applying the Theory of Critical Distances in order to calibrate the material's critical distance and to apply the corresponding apparent fracture toughness formulation. Themethodology has been applied to two different materials, PMMA and Al7075-T651, and the results have proven that, as long as the Theory of Critical Distances has been applied within its validity range, the fracture toughness estimations are highly accurate.
- Subjects
FRACTURE toughness; PARAMETER estimation; ELASTICITY; STRAINS &; stresses (Mechanics); FINITE element method; CALIBRATION
- Publication
ISRN Materials Science, 2012, p1
- ISSN
2090-6080
- Publication type
Article
- DOI
10.5402/2012/689386