Weld root magnification factors for semi-elliptical cracks in T-butt joints
Weld root magnification factors for semi-elliptical cracks in T-butt joints
Many researchers have focused their efforts on fatigue failures occurring on weld toes. In recent years, more and more fatigue failures occur on weld roots. Therefore, it is important to explore the behaviour of weld root fatigues. This paper investigates numerically the Magnification factors (Mk) for types of semi-elliptical cracks on the weld root of a T-butt joint. The geometry of the joint is determined by four important parameters: crack depth ratio, crack shape ratio, weld leg ratio and weld angle. A singular element approach is used to generate the corresponding finite element meshes. For each set of given four parameters of the semi-elliptical root crack, the corresponding T-butt joint is numerically simulated and its Mk at the deepest point of the weld root crack is obtained for the respective tension and shear loads. The variation range of the four parameters covers 750 cases for each load, totaling 1500 simulations are completed. The numerical results obtained are then represented by the curve to explore the effects of four parameters on the Mk. To obtain an approximate equation representing Mk as a function of the four parameters for each load, a multiple regression method is adopted and the related regression analysis is performed. The error distributions of the two approximate equations are compared with the finite element data. It is confirmed that the obtained approximate functions fit very well to the database from which they are derived. Therefore, these two equations present a valuable reference for engineering applications in T-butt joint designs.
welded root cracks, singular element method, stress intensity factors, magnification factors, multiple regressions
317-330
Song, Zhanxue
840ab61f-fcfc-4f6b-a9df-3a9f431cd79c
Xiong, Yeping
51be8714-186e-4d2f-8e03-f44c428a4a49
Xie, Jilong
557c8492-7047-4090-948b-6c71a1b61065
Xing, Jing Tang
d4fe7ae0-2668-422a-8d89-9e66527835ce
June 2013
Song, Zhanxue
840ab61f-fcfc-4f6b-a9df-3a9f431cd79c
Xiong, Yeping
51be8714-186e-4d2f-8e03-f44c428a4a49
Xie, Jilong
557c8492-7047-4090-948b-6c71a1b61065
Xing, Jing Tang
d4fe7ae0-2668-422a-8d89-9e66527835ce
Song, Zhanxue, Xiong, Yeping, Xie, Jilong and Xing, Jing Tang
(2013)
Weld root magnification factors for semi-elliptical cracks in T-butt joints.
Acta Mechanica Solida Sinica, 26 (3), .
(doi:10.1016/S0894-9166(13)60029-4).
Abstract
Many researchers have focused their efforts on fatigue failures occurring on weld toes. In recent years, more and more fatigue failures occur on weld roots. Therefore, it is important to explore the behaviour of weld root fatigues. This paper investigates numerically the Magnification factors (Mk) for types of semi-elliptical cracks on the weld root of a T-butt joint. The geometry of the joint is determined by four important parameters: crack depth ratio, crack shape ratio, weld leg ratio and weld angle. A singular element approach is used to generate the corresponding finite element meshes. For each set of given four parameters of the semi-elliptical root crack, the corresponding T-butt joint is numerically simulated and its Mk at the deepest point of the weld root crack is obtained for the respective tension and shear loads. The variation range of the four parameters covers 750 cases for each load, totaling 1500 simulations are completed. The numerical results obtained are then represented by the curve to explore the effects of four parameters on the Mk. To obtain an approximate equation representing Mk as a function of the four parameters for each load, a multiple regression method is adopted and the related regression analysis is performed. The error distributions of the two approximate equations are compared with the finite element data. It is confirmed that the obtained approximate functions fit very well to the database from which they are derived. Therefore, these two equations present a valuable reference for engineering applications in T-butt joint designs.
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Published date: June 2013
Keywords:
welded root cracks, singular element method, stress intensity factors, magnification factors, multiple regressions
Organisations:
Fluid Structure Interactions Group
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Local EPrints ID: 208695
URI: http://eprints.soton.ac.uk/id/eprint/208695
ISSN: 0894-9166
PURE UUID: fb09642f-f29a-4575-a82e-e369925354db
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Date deposited: 23 Jan 2012 11:31
Last modified: 15 Mar 2024 03:06
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Author:
Zhanxue Song
Author:
Jilong Xie
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