Startseite Residual stress relaxation in welded large components
Artikel
Lizenziert
Nicht lizenziert Erfordert eine Authentifizierung

Residual stress relaxation in welded large components

  • Majid Farajian und Thomas Nitschke-Pagel
Veröffentlicht/Copyright: 31. August 2015
Veröffentlichen auch Sie bei De Gruyter Brill
Manuskript einreichen Informationen für Autor*innen
Materials Testing
Aus der Zeitschrift Materials Testing Band 57 Heft 9

Abstract

Residual stress relaxation of butt-welded large components under cyclic mechanical loading was investigated. The experiments were carried out on different types of steel with yield strengths between 300 and 800 MPa. X-ray diffraction technique was applied for the residual stresses analysis. High tensile residual stresses as high as the yield strength could be measured in large components. However, a fraction of maximum residual stress accommodated in the weld bead centerline is available at the weld toe. Under four-point bending of the large scale weldments, a considerable relaxation of residual stresses in the weld and its vicinity was observed during the first loadings. This behavior could be observed regardless wether the weld was under tensile or compressive loading.

Kurzfassung

Der Eigenspannungsabbau von stumpfgeschweißten Großkomponenten unter zyklischer mechanischer Beanspruchung wurde untersucht. Die Versuche wurden an Stählen mit Streckgrenzen von 300 bis 800 MPa durchgeführt. Für die Eigenspannungsermittlung wurde das Röntgenbeugungsverfahren eingesetzt. Es wurde festgestellt, dass sehr hohe Zugeigenspannungen in Höhe der Streckgrenze der Grundwerkstoffe in geschweißten Großkomponenten vorliegen können. Allerdings ist nur ein Bruchteil der maximalen Zugeigenspannung an den Schweißnahtübergängen vorhanden. Unter Vierpunkt- Biegung der Schweißverbindungen wurde ein beträchtlicher Eigenspannungsabbau in der Schweißnaht und deren Umgebung während des ersten Belastungszyklus beobachtet. Dieses Verhalten war unabhängig davon, ob die Schweißnaht Zug- oder Druckbelastung erfuhr.

§Correspondence Address, Dr. -Ing. Majid Farajian, Gruppe Ermüdungsverhalten, Bruchmechanik, Geschäftsfeld Bauteilsicherheit und Leichtbau, Fraunhofer-Institut für Werkstoffmechanik IWM, Wöhlerstr. 11, 79108 Freiburg, Deutschland. E-mail:

Dr.-Ing. Majid Farajian, born in 1976, received his BSc in Mechanical Engineering from the Tehran Polytechnic, Iran, and his MSc in Materials Processing from the Royal Institute of Technology in Stockholm, Sweden. He received his PhD from the Faculty of Mechanical Engineering of the University of Braunschweig, Germany in 2011. After two years post-doctoral research activities, he continued his work in the field of fatigue and residual stresses at the Fraunhofer Institute for Mechanics of Materials IWM in Freiburg, Germany. Since then, he is the head of the team “Component Strength” at the Fraunhofer IWM.

Dr.-Ing. Thomas Nitschke-Pagel, born in 1958, completed his studies of General Engineering at the University of Kassel, Germany. From 1987 to 1991, he was employed as a research associate at the Institut für Werkstofftechnik at the same university. He has been a research associate at the Institute of Welding of the Technical University of Braunschweig, Germany since 1992 and is currently the head of the working groups “Welded Components Behavior” and “Welding Processes”. He received his doctorate at the Institute of Joining and Welding in 1994.

References

1 T. R.Gurney: Fatigue of Welded Structures, Cambridge University Press, UK (1968)Suche in Google Scholar

2 J.Schijve: Fatigue of Structures and Materials, Kluwer Academic Publication (2001)Suche in Google Scholar

3 D.Löhe, O.Vöhringer: Stability of Residual Stresses, Handbook of Residual Stress and Deformation of Steel, ASM, 2002, pp. 5469Suche in Google Scholar

4 I. V.Kudryavtsev: The influence of internal stresses on the fatigue endurance of steel, Int. Conf. on Fatigue, I. Mech. E, 1956, p. 317Suche in Google Scholar

5 V. I.Trufyakov: Welded joints and residual stresses, Avt. Sv. No.5, 1956, and Br. Weld. J. Vol. 5, No. 11, 1958, pp. 491498Suche in Google Scholar

6 F. V.Lawrence, J. D.Burk, J. Y.Yun: Influence of Residual Stress on the Predicted Fatigue Life of Weldments, ASTM STP 776, 1982, pp. 334310.1520/STP30097SSuche in Google Scholar

7 B.Scholtes: Residual Stresses Generated by Mechanical Surface Treatments, DGM Intformationsgesellschaft Verlag, Oberursel, Germany, 1990Suche in Google Scholar

8 C. P.Diepart: Effect of Residual Stresses Induced by Shot Peeing on Metal Fatigue, Residual Stresses in Science and Technology, Ed. E.Macherauch and V.Hauk, Vol. 1, DGM Informationsgesellschaft Verlag, Oberursel, Germany, 1987, pp. 457466Suche in Google Scholar

9 R. C.McClung: A literature survey on the stability and significance of residual stresses during fatigue, Journal of Fatigue & Fracture of Engineering Materials & Structures, 2007, 30, pp. 17320510.1111/j.1460-2695.2007.01102.xSuche in Google Scholar

10 A. P.Voskamp: Rolling Contact fatigue and the Significance of Residual Stresses, Residual Stresses in Science and Technology, Vol. 2, Ed. E.Macherauch and V.Hauk, DGM Iinformationsgesellschaft Verlag, Oberursel, Germany, 1987, pp. 713720Suche in Google Scholar

11 D.Löhe, K. H.Lange, O.Vöhringer: Residual Stress and Fatigue Behaviour, Handbook of Residual Stress and Deformation of Steel, ASM, 2002, pp. 2753Suche in Google Scholar

12 E.Macherauch, P.Müller: Das sin2Ψ-Verfahren der röntgenographischen Spannungsmessung, Z. Angew. Phys.13 (1961), pp. 305312Suche in Google Scholar

13 V.Hauk: Structural and Residual Stress Analysis by Nondestructive Methods, Elsevier Science B. v., 1997Suche in Google Scholar

14 M.Farajian, T.Nitschke-Pagel, K.Dilger: Relaxation of Welding Residual Stresses under Cyclic Loading, International Journal of Microstructure and Material Properties Vol. 7, No. 1 (2012), pp. 162610.1504/IJMMP.2012.045799Suche in Google Scholar

Published Online: 2015-08-31
Published in Print: 2015-09-01

© 2015, Carl Hanser Verlag, München

Artikel in diesem Heft

  1. Inhalt/Contents
  2. Inhalt
  3. Fachbeiträge/Technical Contributions
  4. Adhesive tensile testing of atmospheric plasma sprayed zinc coating on a 1.4301 substrate
  5. Fatigue strength of nodular cast iron with regard to heavy-wall applications
  6. Mechanical and corrosion properties of friction stir welded joints of Al-Cu alloy 2219-T87
  7. The effect of using heat treated ulexite and cashew in automotive friction materials
  8. Residual stress relaxation in welded large components
  9. Variation regulation of the acoustic emission energy parameter during the failure process of granite under uniaxial compression
  10. Iznik tiles: A new production technology and respective characterization
  11. Quality during milling of a glass fiber reinforced polymer composite
  12. Effect of abrasive water jet turning process parameters on surface roughness and material removal rate of AISI 1050 steel
  13. Influence of cutting parameters on the chip-tool interface temperature during the turning of Waspaloy
  14. Effects of the thixocasting injection velocity on tensile properties of an A357 Al alloy
  15. Solid mold investment casting – A replication process for open-cell foam metal production
  16. Design of an impact testing machine for polymer films by the free falling dart procedure
  17. Mechanical and electrical properties of Sb-Ga50Au10In40 alloys
  18. CFD simulation of particulate flow in a spiral concentrator
https://doi.org/10.3139/120.110773

Artikel in diesem Heft

  1. Inhalt/Contents
  2. Inhalt
  3. Fachbeiträge/Technical Contributions
  4. Adhesive tensile testing of atmospheric plasma sprayed zinc coating on a 1.4301 substrate
  5. Fatigue strength of nodular cast iron with regard to heavy-wall applications
  6. Mechanical and corrosion properties of friction stir welded joints of Al-Cu alloy 2219-T87
  7. The effect of using heat treated ulexite and cashew in automotive friction materials
  8. Residual stress relaxation in welded large components
  9. Variation regulation of the acoustic emission energy parameter during the failure process of granite under uniaxial compression
  10. Iznik tiles: A new production technology and respective characterization
  11. Quality during milling of a glass fiber reinforced polymer composite
  12. Effect of abrasive water jet turning process parameters on surface roughness and material removal rate of AISI 1050 steel
  13. Influence of cutting parameters on the chip-tool interface temperature during the turning of Waspaloy
  14. Effects of the thixocasting injection velocity on tensile properties of an A357 Al alloy
  15. Solid mold investment casting – A replication process for open-cell foam metal production
  16. Design of an impact testing machine for polymer films by the free falling dart procedure
  17. Mechanical and electrical properties of Sb-Ga50Au10In40 alloys
  18. CFD simulation of particulate flow in a spiral concentrator
Jetzt anmelden und 20% sparen
Institutioneller Zugang
Wie funktioniert Authentifizierung?
Haben Sie eine Idee, wie wir unsere Website verbessern können?
Bitte schreiben Sie uns.
© 2025 De Gruyter Brill
Heruntergeladen am 9.11.2025 von https://www.degruyterbrill.com/document/doi/10.3139/120.110773/html
Button zum nach oben scrollen