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Influence of residual stress on stress concentration factor for high strength steel welded joints
Abstract In this study, a set of plate-to-plate T and Y joints specimens made from high strength steel plates with yield stress equal to 690MPa is investigated. The joints are fabricated by SMAW welding procedure. Two groups of specimens with different welding procedures are included: one group is composed by the joints with welding completed at ambient temperature and the other group is composed by the joints with welding completed at a preheating temperature of 100°C. The residual stress near the weld toe is investigated for both groups. Hole-drilling method is applied to investigate the residual stress distribution and variation in joints. Sequentially coupled thermal-stress analysis is then conducted with finite element package ABAQUS to investigate the residual stress distribution in the joints. Finally, the effects of residual stress on the stress concentration factor distributions of the joints are evaluated. A new parameter is put forward in stress concentration factor evaluation to combine the residual stress effect.
Highlights ► Preheating can reduce the magnitude of residual stress in most cases. ► An effective modeling procedure is put forward for residual stress analysis. ► The influence of residual stress on SCF is evident when low stress is applied. ► RSF is an effective parameter indicting the residual stress effect on SCF.
Influence of residual stress on stress concentration factor for high strength steel welded joints
Abstract In this study, a set of plate-to-plate T and Y joints specimens made from high strength steel plates with yield stress equal to 690MPa is investigated. The joints are fabricated by SMAW welding procedure. Two groups of specimens with different welding procedures are included: one group is composed by the joints with welding completed at ambient temperature and the other group is composed by the joints with welding completed at a preheating temperature of 100°C. The residual stress near the weld toe is investigated for both groups. Hole-drilling method is applied to investigate the residual stress distribution and variation in joints. Sequentially coupled thermal-stress analysis is then conducted with finite element package ABAQUS to investigate the residual stress distribution in the joints. Finally, the effects of residual stress on the stress concentration factor distributions of the joints are evaluated. A new parameter is put forward in stress concentration factor evaluation to combine the residual stress effect.
Highlights ► Preheating can reduce the magnitude of residual stress in most cases. ► An effective modeling procedure is put forward for residual stress analysis. ► The influence of residual stress on SCF is evident when low stress is applied. ► RSF is an effective parameter indicting the residual stress effect on SCF.
Influence of residual stress on stress concentration factor for high strength steel welded joints
Jiang, Jin (Autor:in) / Zhao, Mingshan (Autor:in)
Journal of Constructional Steel Research ; 72 ; 20-28
05.09.2011
9 pages
Aufsatz (Zeitschrift)
Elektronische Ressource
Englisch
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