Your search keyword '"TIG-dressing"' showing total 3 results

1. Fatigue strength assessment of TIG-dressed ultra-high-strength steel fillet weld joints using the 4R method

Author

Heli Mettänen, Antti Ahola, Tuomas Skriko, Timo Björk, T. Nykänen, Lappeenrannan-Lahden teknillinen yliopisto LUT, Lappeenranta-Lahti University of Technology LUT, and fi=School of Energy Systems|en=School of Energy Systems

Subjects

Materials science, Mechanical Engineering, Gas tungsten arc welding, Fillet weld, High strength steel, Welded joints, Fatigue limit, Ultra-high-strength steel, Industrial and Manufacturing Engineering, Stress (mechanics), Cruciform, Mechanics of Materials, Residual stress, Modeling and Simulation, TIG-dressing, General Materials Science, Composite material, 4R method, Fatigue, Test data

Abstract

Post-weld treatments can enhance the fatigue strength of weldments by means of improving their geometry or residual stresses, or both. In this study, the fatigue strength of TIG-dressed non-load-carrying cruciform joints made of ultra-high-strength steel were analyzed using stress-based approaches, i.e. nominal, structural, and effective notch stress (ENS) methods, and a multi-parametric approach, entitled the 4R method. Comparisons were made between the methods, along with the applied parameters, and the results showed the 4R and ENS approaches to have the best correspondence with the experimental test data, whereas the nominal and structural stress methods resulted in conservative fatigue strength estimations. Post-print / Final draft

Published

2020

2. TIG-dressing of High Strength Steel Butt Welded Connections. Part 1: Weld Toe Geometry and Local Hardness

Author

Van Es, S.H.J. (author), Kolstein, M.H. (author), Pijpers, R.J.M. (author), Bijlaard, F.S.K. (author), Van Es, S.H.J. (author), Kolstein, M.H. (author), Pijpers, R.J.M. (author), and Bijlaard, F.S.K. (author)

Abstract

This paper presents the results of extensive measurements on weld toe geometry of as-welded and TIG-dressed butt welded connections in high strength steels S460, S690 and very high strength steels S890 and S1100. Descriptions of the measurement techniques and data analysis are presented. Four weld toe parameters have been formulated to characterize the weld toe: weld toe radius, weld toe angle, weld height and undercut. From the data can be concluded that TIG-dressing, on average, has a beneficial effect on the geometry of the weld toe. However, TIG-dressed weld toes have different appearances and as a result, weld toe parameters show more variation after TIG-dressing. An improvement of the weakest link is therefore not guaranteed. The reheating of weld material and surrounding parent material results in a new fusion zone (FZ) and heat affected zone (HAZ). Hardness measurements have been performed in all different zones and show an increase of hardness as a result of TIG-dressing, with an occasional exception in the very high strength steels., Structural Engineering, Civil Engineering and Geosciences

Published

2014

3. TIG-dressing of High Strength Butt Welded Connection. Part 2: Physical Testing and Modelling

Author

Van Es, S.H.J. (author), Kolstein, M.H. (author), Pijpers, R.J.M. (author), Bijlaard, F.S.K. (author), Van Es, S.H.J. (author), Kolstein, M.H. (author), Pijpers, R.J.M. (author), and Bijlaard, F.S.K. (author)

Abstract

Weld improvement techniques are aimed at reducing the notch effects of welds and generally focus on two aspects: a change of geometry of the weld toe and a change of the weld residual stresses. In this paper, fatigue tests are discussed, performed on butt welded specimens in steel grades ranging from S460 to S1100 in the TIG-dressed condition. The test results are compared with modelled fatigue strength according to the notch stress theory and similar specimens in the as-welded condition. The changed notch geometry of the joints is based on the results of a parallel program of weld toe geometry measurements. The individual data points and their failure mode give good qualitative insight in the effect of TIG-dressing on butt welded joints in high strength steel. Overall, a positive effect of TIG-dressing on the weld toe is visible. On the basis of a large dataset of measured weld toe geometries a model has been developed based on the notch stress theory. The theoretical results of the model are compared with the results of the physical tests, showing significant differences between the model and the fatigue tests., Structural Engineering, Civil Engineering and Geosciences

Published

2014