AbstractRe-melting of weld toes to improve the surface profile and thus reduce stress concentrations is a known fatigue improvement technique. In the study reported here, a novel approach was taken, using a diode laser as heat source. Different diode laser treatment conditions were tested, using the diode laser power, spot size and shape, and the travel speed as main parameters. Fillet welded samples in S690QL and S960QL in 10mm thickness were treated and fatigue tested with constant amplitude loading. In response to those initial results, further samples were welded and treated and variable amplitude fatigue testing was undertaken
This work deals with fatigue testing of the EN S355 structural steel welded joint. The weld was manu...
AbstractThe aim of this study was to evaluate the effect of laser welding on fatigue properties of D...
The fatigue behaviour of an ultra-high strength steel (>1800 MPa) was evaluated to assess the potent...
AbstractRe-melting of weld toes to improve the surface profile and thus reduce stress concentrations...
This paper deals with usage of a laser beam as a new technology for a weld toe improvements.The aim ...
In the present investigation, a high-power diode laser was applied to improve the fatigue life of AI...
This paper deals with the improvement of fatigue life of AISI 1040 steel components by using a High ...
AbstractWeld seam is the weakest point of the structure. Weld defects, weld geometry such as toe rad...
Nowadays there is a strong demand for lighter vehicles in order to increase the pay load. Through th...
Laser peening introduces compressive residual stresses on the surfaces of various materials and is e...
Laser peening which introduces compressive residual stresses on surfaces is effective in enhancing f...
Laser-deposit welding, by using Nd-YAG, is a mould repairing process, which has the advantages relat...
Laser welding and post weld laser treatment of modified 9Cr-1MoVNb steels (Grade P91) were performed...
This paper presents a fatigue study in Nd-YAG laser surface repairing welded joints in specimens of ...
Laser welding is a widely-used fusion welding process in industry. However, laser welding is not a c...
This work deals with fatigue testing of the EN S355 structural steel welded joint. The weld was manu...
AbstractThe aim of this study was to evaluate the effect of laser welding on fatigue properties of D...
The fatigue behaviour of an ultra-high strength steel (>1800 MPa) was evaluated to assess the potent...
AbstractRe-melting of weld toes to improve the surface profile and thus reduce stress concentrations...
This paper deals with usage of a laser beam as a new technology for a weld toe improvements.The aim ...
In the present investigation, a high-power diode laser was applied to improve the fatigue life of AI...
This paper deals with the improvement of fatigue life of AISI 1040 steel components by using a High ...
AbstractWeld seam is the weakest point of the structure. Weld defects, weld geometry such as toe rad...
Nowadays there is a strong demand for lighter vehicles in order to increase the pay load. Through th...
Laser peening introduces compressive residual stresses on the surfaces of various materials and is e...
Laser peening which introduces compressive residual stresses on surfaces is effective in enhancing f...
Laser-deposit welding, by using Nd-YAG, is a mould repairing process, which has the advantages relat...
Laser welding and post weld laser treatment of modified 9Cr-1MoVNb steels (Grade P91) were performed...
This paper presents a fatigue study in Nd-YAG laser surface repairing welded joints in specimens of ...
Laser welding is a widely-used fusion welding process in industry. However, laser welding is not a c...
This work deals with fatigue testing of the EN S355 structural steel welded joint. The weld was manu...
AbstractThe aim of this study was to evaluate the effect of laser welding on fatigue properties of D...
The fatigue behaviour of an ultra-high strength steel (>1800 MPa) was evaluated to assess the potent...