Your search keyword '"Weld ends"' showing total 4 results

1. Fatigue lifetime assessment of weld ends with idealized or real geometry in steel joints for off-road vehicles using the Peak Stress Method.

Author

Pelizzari, Jacopo, Campagnolo, Alberto, Dengo, Carlo, and Meneghetti, Giovanni

Subjects

*FATIGUE limit, *OFF-road vehicles, *WELDED joints, *STEEL welding, *WELDING

Abstract

• Few fatigue analyses exist on weld extremities using local approaches. • A welded pipe penetrating a plate by means of intermittent fillet welds was tested. • Both idealized and real geometries of the welds were considered in FE models. • The Peak Stress Method was applied to assess the fatigue strength of the joints. The Notch Stress Intensity Factors (NSIFs) for the fatigue analysis of welded structures can be rapidly estimated by FEM by applying the Peak Stress Method (PSM). Two steel welded joint geometries adopted for off-road vehicles and containing four intermittent fillet welds were tested under uniaxial loading. To apply the PSM, an idealized as well as the real 3D scanned geometry of the weld ends were implemented in the numerical analyses. The PSM properly anticipated where cracks initiated and estimated the fatigue lives in fairly good agreement with the outcomes of the fatigue tests. [ABSTRACT FROM AUTHOR]

Published

2024

2. Fatigue of weld ends under combined loading.

Author

Shams, Ehsan and Vormwald, Michael

Subjects

*WELDED joints, *AXIAL loads, *AUTOMOBILE industry, *MATERIAL fatigue, *AXIAL stresses

Abstract

The fatigue behaviour of weld ends, especially in thin sheet structures under multi-axial load conditions, has not yet been explored. A research project was initiated to gain more information on this topic which is of special interest to the automotive industry. In the present study fatigue tests on steel tube-tube joints were conducted. Notch stresses were calculated using an idealised weld end model. A numerical method combining the geometrical and statistical size effect into an integrated approach was used in order to take size effects into consideration. The out-of-phase effects on fatigue strength was covered using a multi-axial criterion. We propose a new approach combining the applied multi-axial criterion with the micro-support effect. That leads to a satisfactorily small scatter range of experimentally obtained fatigue lives around the S-N curve from regression analysis. [ABSTRACT FROM AUTHOR]

Published

2017

3. Fatigue of weld ends under combined in- and out-of-phase multiaxial loading.

Author

Shams, E. and Vormwald, M.

Subjects

*FATIGUE cracks, *AXIAL loads, *WELDED joints, *STRAINS & stresses (Mechanics), *AUTOMOBILE industry

Abstract

Weld start and end points are fatigue failure sensitive locations. Their fatigue behaviour especially in thin sheet structures under multiaxial load conditions is not sufficiently explored so far. Therefore, a research project was initiated to increase the knowledge concerning this topic, which is of special interest in the automotive industry. In the present study, fatigue tests on welded joints were conducted. In the numerical part of the study, notch stresses were calculated with an idealised weld end model. A numerical method which combines the geometrical and statistical size effect to an integrated approach was used, in order to consider the size effects. [ABSTRACT FROM AUTHOR]

Published

2016

4. Notch stress and fracture mechanics based assessment of fatigue of seam weld ends under shear loading.

Author

Shams, E., Malikoutsakis, M., Savaidis, G., and Vormwald, M.

Subjects

*WELDED joints, *FRACTURE mechanics, *GEOMETRY, *MATERIAL fatigue, *FATIGUE life

Abstract

ABSTRACT Welding processes often lead to pronounced weld termination points (start/end), which are prone to fatigue events such as crack initiation. The fatigue of weld ends under shear loading, especially in thin sheet structures, is not sufficiently explored yet. In the present investigation, the real geometry of welds was obtained by scanning the three-dimensional surface, especially of weld ends. Cryogenic breaking of the weld opened the view to the weld root geometry and especially to the critical location, where the weld root migrates to a weld toe at the weld end. In the experimental part of this research, fatigue testing of thin sheet plane and cylindrical specimens as well as large components containing weld ends was performed. Based on the data, weld end life curves have been obtained. The notch stress concept and a fracture mechanics based approach were applied for describing the results of fatigue tests providing sufficient accuracy. [ABSTRACT FROM AUTHOR]

Published

2014