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Skriko, Tuomas
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Publications (5/5 displayed)
- 2023Fatigue performance of fiber laser fusion cut edges on thick plates
- 2023Possibilities of Artificial Intelligence-Enabled Feedback Control System in Robotized Gas Metal Arc Weldingcitations
- 2017Experimental fatigue characterization and elasto-plastic finite element analysis of notched specimens made of direct-quenched ultra-high-strength steelcitations
- 2016Effect of the welding process and filler material on the fatigue behavior of 960 MPa structural steel at a butt joint configurationcitations
- 2016Effect of Side Grooves on Plane Stress Fracture Behavior of Compact Tension Specimens Made of Ultra-High Strength Steelcitations
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article
Fatigue performance of fiber laser fusion cut edges on thick plates
Abstract
<jats:title>Abstract</jats:title><jats:p>Fatigue performance of cut edges is an important factor in structural design, especially when geometrical stress concentration factors (SCFs) are present. High power laser cutting systems have enabled efficient and fast fusion cutting with nitrogen as an assistant gas. The fusion cutting induces recast layer, which features crack-like defects close to cut edge. In this study, plates with thickness 16 ≤ <jats:italic>t</jats:italic> ≤ 30 mm have been fatigue-tested. A 10 kW fiber laser cutting system was used to cut plates with nitrogen as an assistant gas. High strength steel (HSS) S690 specimens included unnotched coupon specimens and welded T-profile with longitudinal gusset in post-weld treated conditions, where laser cut edge was found critical. Fatigue performance of S690 cut edges were found close to 170 MPa <jats:italic>m</jats:italic> = 3 when SCFs of welded specimens were included on analysis. Local properties at the cut edge including hardness measurements and scanning electron microscope (SEM) fractography. Fractography obtained local quality use with theory of critical distances -based fatigue strength assessment was demonstrated.</jats:p>