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Investigation on fracture toughness of laser beam welded steels

Authors
  • Klein, R.M.
  • Riekehr, S.
  • Cam, G.
  • Santos, J.F. dos
  • Kocak, M. (GKSS-Forschungszentrum Geesth...
  • gmbh (germany), gkss-forschungszentrum g...
Publication Date
Jan 01, 1999
Source
OpenGrey Repository
Keywords
Language
English
License
Unknown

Abstract

Laser beam welding is currently used in the welding of a variety of structural materials including hot and cold rolled steels, high strength low alloy and stainless steels, aluminium and titanium alloys, refractory and high temperature alloys and dissimilar materials. This high power density welding process has unique advantages of cost effectiveness, low distortion, high welding speed, easy automation, deep penetration, narrow bead width, and narrow HAZ compared to the conventional fusion welding processes. However, there is a need to understand the deformation and fracture properties of laser beam weld joints in order to use this cost effective process for fabrication of structural components fully. In the present study, an austenitic stainless steel, X5CrNi18 10 (1.4301) and a ferritic structural steel, RSt37-2 (1.0038), with a thickness of 4 mm were welded by 5 kW CO_2 laser process. Microhardness measurements were conducted to determine the hardness profiles of the joints. Flat microtensile specimens were extracted from the base metal, fusion zone, and heat affected zone of ferritic joint to determine the mechanical property variation across the joint and the strength mismatch ratio between the base metal and the fusion zone. Moreover, fracture mechanics specimens were extracted from the joints and tested at room temperature to determine fracture toughness, Crack Tip Opening Displacement (CTOD), of the laser beam welded specimens. The effect of the weld region strenght mis-matching on the fracture toughness of the joints have been evaluated. Crack initiation, crack growth and crack deviation processes have also been examined. These results were used to explain the influence of mechanical heterogeneity of the weld region on fracture behaviour. This work is a part of the ongoing Brite-Euram project Assessment of Quality of Power Beam Weld Joints (ASPOW). (orig.) / First published in: Mordike, B.L. (ed.) 'ECLAT - European Conference on Laser Treatment of Materials', Weinheim: Wiley-VCH Verlag, 1998, pp. 401-411 / Available from TIB Hannover: RA 3251(99/E/11) / FIZ - Fachinformationszzentrum Karlsruhe / TIB - Technische Informationsbibliothek / SIGLE / DE / Germany

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