Abstract
This paper presents the results of research dealing with assessing the welding effect (temperature–stress cycles) on the residual stresses in these steels. Residual stresses, remaining in the material after technological processing, pose a risk, especially at the areas of local stress peaks. During the real welding, residual stresses achieve their highest values in the heat-affected zone (HAZ), which is very narrow and therefore quite problematic to be studied in detail. Therefore, a methodology of temperature–stress physical simulations has been developed to study residual stresses in the HAZ over a 6.5 times larger section of the test sample. Thus, temperature cycles corresponding to the real welding were applied to the samples in the thermo-mechanical simulator, Gleeble 3500. Subsequently, the residual stresses were determined by the X-ray diffraction method. At the same time, the influence of annealing temperature on the residual stress reduction and redistribution was also investigated. Obtained results were compared and discussed with the similar studies about HSLA and duplex steels.
Funder
Technical University of Liberec
Subject
General Materials Science,Metals and Alloys
Reference35 articles.
1. Jandera, M., and Machacek, J. (2022, September 29). Residual Stresses and Strength of Hollow Stainless Steel Sections. Available online: https://www.researchgate.net/publication/268358021.
2. A Comparison of Residual Stresses in Multi Pass Narrow Gap Laser Welds and Gas-Tungsten Arc Welds in AISI 316L Stainless Steel;Int. J. Press. Vessel. Pip.,2014
3. Analysis of Residual Stresses Induced by Dry Turning of Difficult-to-Machine Materials;CIRP Ann.,2008
4. Bozga, M.-B., Popa, M.S., Sattel, S., and Tomoiagă, V.-B. (2017). Influence of the Cutting Edge Microgeometry on the Tool Life in Austenitic Stainless Steel Machining with Carbide End Mill, EDP Sciences.
5. Investigating the Influence of Cutting Speed on the Tool Life of a Cutting Insert While Cutting DIN 1.4301 Steel;Mater. Technol.,2016