Skip to main content
Top
Published in:
Cover of the book

2016 | OriginalPaper | Chapter

IIW Recommendations on High Frequency Mechanical Impact (HFMI) Treatment for Improving the Fatigue Strength of Welded Joints

Authors : Gary B. Marquis, Zuheir Barsoum

Published in: IIW Recommendations for the HFMI Treatment

Publisher: Springer Singapore

Activate our intelligent search to find suitable subject content or patents.

search-config
loading …

Abstract

High-frequency mechanical impact (HFMI) has emerged as a reliable, effective and user-friendly method for post-weld fatigue strength improvement technique for welded structures. This guideline presents recommendations on proper treatment procedures, quality control measures and fatigue strength improvement assessment based on nominal, hot spot and effective notch stress methods. Recommendations on effect of loading conditions, variable amplitude loading, low cycle fatigue and consideration of low stress concentration details are also given. The guideline is applicable to steel structures of plate thicknesses of 5–50 mm and for yield strength ranging from 235 to 960 MPa.

Dont have a licence yet? Then find out more about our products and how to get one now:

Springer Professional "Wirtschaft+Technik"

Online-Abonnement

Mit Springer Professional "Wirtschaft+Technik" erhalten Sie Zugriff auf:

  • über 102.000 Bücher
  • über 537 Zeitschriften

aus folgenden Fachgebieten:

  • Automobil + Motoren
  • Bauwesen + Immobilien
  • Business IT + Informatik
  • Elektrotechnik + Elektronik
  • Energie + Nachhaltigkeit
  • Finance + Banking
  • Management + Führung
  • Marketing + Vertrieb
  • Maschinenbau + Werkstoffe
  • Versicherung + Risiko

Jetzt Wissensvorsprung sichern!

Springer Professional "Technik"

Online-Abonnement

Mit Springer Professional "Technik" erhalten Sie Zugriff auf:

  • über 67.000 Bücher
  • über 390 Zeitschriften

aus folgenden Fachgebieten:

  • Automobil + Motoren
  • Bauwesen + Immobilien
  • Business IT + Informatik
  • Elektrotechnik + Elektronik
  • Energie + Nachhaltigkeit
  • Maschinenbau + Werkstoffe




 

Jetzt Wissensvorsprung sichern!

Appendix
Available only for authorised users
Literature
1.
go back to reference Marquis G. and Barsoum Z., Fatigue strength improvement of steel structures by HFMI: Proposed procedures and quality assurance guidelines, Welding in the World, No. 58, pp. 19−28, 2014 Marquis G. and Barsoum Z., Fatigue strength improvement of steel structures by HFMI: Proposed procedures and quality assurance guidelines, Welding in the World, No. 58, pp. 19−28, 2014
2.
go back to reference Marquis G., Mikkola E., H. Yildirim and Barsoum Z., Fatigue strength improvement of steel structures by HFMI: Proposed fatigue assessment guidelines, Welding in the World, No. 57, pp. 803−822, 2013 Marquis G., Mikkola E., H. Yildirim and Barsoum Z., Fatigue strength improvement of steel structures by HFMI: Proposed fatigue assessment guidelines, Welding in the World, No. 57, pp. 803−822, 2013
3.
go back to reference Haagensen P.J. and Maddox S.J., IIW Recommendations on methods for improving the fatigue strength of welded joints, ISBN:9781782420644, Woodhead Publishing, 2013 Haagensen P.J. and Maddox S.J., IIW Recommendations on methods for improving the fatigue strength of welded joints, ISBN:9781782420644, Woodhead Publishing, 2013
4.
go back to reference Barsoum Z. and Jonsson B., Influence of weld quality on the fatigue strength in seam welds, Engineering Failure Analysis, No. 18, pp. 971−979, 2011 Barsoum Z. and Jonsson B., Influence of weld quality on the fatigue strength in seam welds, Engineering Failure Analysis, No. 18, pp. 971−979, 2011
5.
go back to reference Holmstrand T., Mrdjanov N., Barsoum Z., Åstrand E., Fatigue life assessment of improved joints welded with alternative welding techniques, Engineering Failure Analysis, pp. 10−21, Volume 42, 2014 Holmstrand T., Mrdjanov N., Barsoum Z., Åstrand E., Fatigue life assessment of improved joints welded with alternative welding techniques, Engineering Failure Analysis, pp. 10−21, Volume 42, 2014
6.
go back to reference Volvo Group weld quality standard, STD 181-0004; 2008 Volvo Group weld quality standard, STD 181-0004; 2008
7.
go back to reference Jonsson B., Samuelsson J., Marquis G., Development of weld quality criteria based on fatigue performance, Welding in the World, Volume 55, Issue 1112, pp 79−88, 2011 Jonsson B., Samuelsson J., Marquis G., Development of weld quality criteria based on fatigue performance, Welding in the World, Volume 55, Issue 1112, pp 79−88, 2011
8.
go back to reference Khurshid M., Barsoum Z. and Marquis G., Behavior of compressive residual stresses in high strength steel welds induced by High Frequency Mechanical Impact treatment, ASME Journal of Pressure Vessel Technology, pp. 1−8, Vol. 136, 2014 Khurshid M., Barsoum Z. and Marquis G., Behavior of compressive residual stresses in high strength steel welds induced by High Frequency Mechanical Impact treatment, ASME Journal of Pressure Vessel Technology, pp. 1−8, Vol. 136, 2014
12.
go back to reference Huo, L., Wang, D., Zhang, Y., Investigation of the fatigue behavior of the welded joints treated by TIG dressing and ultrasonic peening under variable-amplitude load International Journal of Fatigue, vol. 27, pp. 95−101, 2005 Huo, L., Wang, D., Zhang, Y., Investigation of the fatigue behavior of the welded joints treated by TIG dressing and ultrasonic peening under variable-amplitude load International Journal of Fatigue, vol. 27, pp. 95−101, 2005
16.
go back to reference Bousseau, M., Millot T. Fatigue life improvement of welded strucrtures by UNP compared to TIG dressing, International Institute of Welding., Paris, Document XIII-2125-06, 2006 Bousseau, M., Millot T. Fatigue life improvement of welded strucrtures by UNP compared to TIG dressing, International Institute of Welding., Paris, Document XIII-2125-06, 2006
17.
go back to reference Yildirim, H.C. and Marquis, G.B., A Round Robin study of high frequency mechanical impact (HFMI)-treated welded joints subjected to variable amplitude loading, Welding in the World, Volume 57, Issue 3, pp 437−447, 2013. Yildirim, H.C. and Marquis, G.B., A Round Robin study of high frequency mechanical impact (HFMI)-treated welded joints subjected to variable amplitude loading, Welding in the World, Volume 57, Issue 3, pp 437−447, 2013.
18.
go back to reference Yildirim, H.C. and Marquis, G.B., Overview of Fatigue data for high frequency mechanical impact treated welded joints, Welding in the World, 57, issue 7/8, 2012. Yildirim, H.C. and Marquis, G.B., Overview of Fatigue data for high frequency mechanical impact treated welded joints, Welding in the World, 57, issue 7/8, 2012.
19.
go back to reference ISO 5817:2006; Welding–Fusion-welded joints in steel, nickel, titanium and their alloys (beam welding excluded)–Quality levels for imperfections, 2006. ISO 5817:2006; Welding–Fusion-welded joints in steel, nickel, titanium and their alloys (beam welding excluded)–Quality levels for imperfections, 2006.
20.
go back to reference Yekta R.T., Ghahremani K and Walbridge S, Effect of quality control parameter variations on the fatigue performance of ultrasonic impact treated welds, Int J Fatigue, 55, 2013, pp. 245−256. Yekta R.T., Ghahremani K and Walbridge S, Effect of quality control parameter variations on the fatigue performance of ultrasonic impact treated welds, Int J Fatigue, 55, 2013, pp. 245−256.
21.
go back to reference AASHTO LRFD bridge construction specifications Chapter 11.9 ultrasonic impact treatment, 3rd Ed, American association of state highway and transportation officials: LFRD bridge design specifications, Washington, D.C., 2010. AASHTO LRFD bridge construction specifications Chapter 11.9 ultrasonic impact treatment, 3rd Ed, American association of state highway and transportation officials: LFRD bridge design specifications, Washington, D.C., 2010.
22.
go back to reference Neher, M., HiFIT. Presentation to the IIW Commission XIII intermediate meeting, Espoo, Finland 15-16 March, 2012. Neher, M., HiFIT. Presentation to the IIW Commission XIII intermediate meeting, Espoo, Finland 15-16 March, 2012.
23.
go back to reference Applied Ultrasonics, Esonix UIT application guide: Post weld treatment for fatigue enhancement carbon steel welded structures. Alabama, USA, 2006. Applied Ultrasonics, Esonix UIT application guide: Post weld treatment for fatigue enhancement carbon steel welded structures. Alabama, USA, 2006.
24.
go back to reference Le Quilliec, G., Lieurade, H.-P., Bousseau, M., Drissi-Habti, M., Inglebert, G., Macquet, P. and Jubin, L., Fatigue behaviour of welded joints treated by high frequency hammering: Part 1, Experimental study International Institute of Welding, Paris, IIW Document XIII-2394-11, 2011. Le Quilliec, G., Lieurade, H.-P., Bousseau, M., Drissi-Habti, M., Inglebert, G., Macquet, P. and Jubin, L., Fatigue behaviour of welded joints treated by high frequency hammering: Part 1, Experimental study International Institute of Welding, Paris, IIW Document XIII-2394-11, 2011.
25.
go back to reference Marquis, G.: Failure modes and fatigue strength of improved HSS welds, Engineering Fracture Mechanics., Vol.77, No.11, pp. 2051−2062, 2010. Marquis, G.: Failure modes and fatigue strength of improved HSS welds, Engineering Fracture Mechanics., Vol.77, No.11, pp. 2051−2062, 2010.
26.
go back to reference Yekta, R. T., and Walbridge, S., Acceptance Criteria for Ultrasonic Impact Treatment (UIT), Ontario Ministry of Transportation, Report HIIFP-110, St. Catherines, Ontario, Canada, 2012. Yekta, R. T., and Walbridge, S., Acceptance Criteria for Ultrasonic Impact Treatment (UIT), Ontario Ministry of Transportation, Report HIIFP-110, St. Catherines, Ontario, Canada, 2012.
27.
go back to reference Tilly, G. P., Jackson, P. A., Maddox, S. J. and Henderson, R., Proceedings of the ICE - Bridge Engineering, Volume 163, Issue 3, 01 September 2010, pp. 147–152. Tilly, G. P., Jackson, P. A., Maddox, S. J. and Henderson, R., Proceedings of the ICE - Bridge Engineering, Volume 163, Issue 3, 01 September 2010, pp. 147–152.
28.
go back to reference Y. Kudryavtsev and J. Kleiman: Measurement of Residual Stresses in Welded Elements and Structures by Ultrasonic Method. International Institute of Welding. IIW Document XIII-2339-10, 2010. Y. Kudryavtsev and J. Kleiman: Measurement of Residual Stresses in Welded Elements and Structures by Ultrasonic Method. International Institute of Welding. IIW Document XIII-2339-10, 2010.
29.
go back to reference Lopez Martinez, L. and Haagensen, P. J., Life extension of Class F and Class F2 details using ultrasonic peening International Institute of Welding, Paris, IIW Document XIII-2143-06, 2006. Lopez Martinez, L. and Haagensen, P. J., Life extension of Class F and Class F2 details using ultrasonic peening International Institute of Welding, Paris, IIW Document XIII-2143-06, 2006.
30.
go back to reference PIT 10 Almen test: PIT equipment calibration procedures, PITEC GmbH, Heudorf, Germany, p. 6, 2011. PIT 10 Almen test: PIT equipment calibration procedures, PITEC GmbH, Heudorf, Germany, p. 6, 2011.
31.
go back to reference Hobbacher, A., IIW Recommendations for Fatigue Design of Welded Joints and Components, WRC, New York, 2009. Hobbacher, A., IIW Recommendations for Fatigue Design of Welded Joints and Components, WRC, New York, 2009.
32.
go back to reference Fricke W. IIW guideline for the assessment of weld root fatigue, Welding in the World, 57, pp. 753−791, 2013. Fricke W. IIW guideline for the assessment of weld root fatigue, Welding in the World, 57, pp. 753−791, 2013.
33.
go back to reference Yildirim, H. C. and Marquis, G. B., Fatigue strength improvement factors for high strength steel welded joints treated by high frequency mechanical impact. Int J Fatigue, 44, 2012, pp. 168−176. Yildirim, H. C. and Marquis, G. B., Fatigue strength improvement factors for high strength steel welded joints treated by high frequency mechanical impact. Int J Fatigue, 44, 2012, pp. 168−176.
34.
go back to reference Niemi, E., Random loading behavior of welded components, in Proc. of the IIW International Conference on Performance of Dynamically Loaded Welded Structures. SJ Maddox and M. Prager (eds), July 14-15, San Francisco, Welding Research Council, New York. (1997) Niemi, E., Random loading behavior of welded components, in Proc. of the IIW International Conference on Performance of Dynamically Loaded Welded Structures. SJ Maddox and M. Prager (eds), July 14-15, San Francisco, Welding Research Council, New York. (1997)
35.
go back to reference Niemi E, Fricke W and Maddox S, Fatigue analysis of welded joints - Designer’s guide to the structural hot-spot stress approach, Cambridge, Woodhead, 2006. Niemi E, Fricke W and Maddox S, Fatigue analysis of welded joints - Designer’s guide to the structural hot-spot stress approach, Cambridge, Woodhead, 2006.
36.
go back to reference Fricke, W, IIW Recommendations for the Fatigue Assessment of Welded Structures by Notch Stress Analysis, Woodhead Publishing Ltd., Cambridge, 2012. Fricke, W, IIW Recommendations for the Fatigue Assessment of Welded Structures by Notch Stress Analysis, Woodhead Publishing Ltd., Cambridge, 2012.
Metadata
Title
IIW Recommendations on High Frequency Mechanical Impact (HFMI) Treatment for Improving the Fatigue Strength of Welded Joints
Authors
Gary B. Marquis
Zuheir Barsoum
Copyright Year
2016
Publisher
Springer Singapore
DOI
https://doi.org/10.1007/978-981-10-2504-4_1

Premium Partners