Stress intensity factors for three-dimensional weld toe cracks using weld toe magnification factors
Autor: | Seung-Ho Han, J. W. Han, D. K. Han |
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Rok vydání: | 2013 |
Předmět: |
Polynomial (hyperelastic model)
Materials science business.industry Mechanical Engineering Magnification Structural engineering Welding Finite element method Fatigue crack propagation law.invention Cruciform Mechanics of Materials law General Materials Science business Stress intensity factor Parametric statistics |
Zdroj: | Fatigue & Fracture of Engineering Materials & Structures. 37:146-156 |
ISSN: | 8756-758X |
DOI: | 10.1111/ffe.12095 |
Popis: | In welded components, particularly those with complex geometrical shapes, evaluating stress intensity factors is a difficult task. To effectively calculate the stress intensity factors, a weld toe magnification factor is introduced that can be derived from data obtained in a parametric study performed by finite element method (FEM). Although solutions for the weld toe magnification factor have been presented, these are applicable only to non-load-carrying cruciform or T-butt joints, due possibly to the requirement of very complicated calculations. In the majority of cases for various welded joints, the currently used weld toe magnification factors do not adequately describe the behaviour of weld toe cracks. In this study, the weld toe magnification factor solutions for the three types of welded joints such as cruciform, cover plate and longitudinal stiffener joints were provided through a parametric study using three-dimensional finite elements. The solutions were formed with exponents and fractions that have polynomial functions in terms of a/c and a/t – that is, crack depths normalised by corresponding half crack lengths and specimen thickness. The proposed weld toe magnification factors were applied to evaluate the fatigue crack propagation life considering the propagation mechanisms of multiple-surface cracks for all welded joints. It showed good agreement within a deviation factor of two between the experimental and calculated results for the fatigue crack propagation life. |
Databáze: | OpenAIRE |
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