Advanced search
Publication Cover
Science and Technology of Welding and Joining Volume 15, 2010 - Issue 2
Journal homepage
205
Views
48
CrossRef citations to date
0
Altmetric
Articles

Efficacy of active cooling for controlling residual stresses in friction stir welds

D. G. RichardsSchool of Materials, Manchester University, Grosvenor St.ManchesterM1 7HS, UK
,
P. B. PrangnellSchool of Materials, Manchester University, Grosvenor St.ManchesterM1 7HS, UK
,
P. J. WithersSchool of Materials, Manchester University, Grosvenor St.ManchesterM1 7HS, UK
,
S. W. WilliamsCranfield University, Welding Engineering Research Centre, BedfordshireMK43 OAL, UK
,
T. NagyCranfield University, Welding Engineering Research Centre, BedfordshireMK43 OAL, UK
&
S. MorganBAE Systems, Optics and Laser Technology Department, Advanced Technology Centre, PO box 5, FPC 267, BristolBS12 7QW, UK
Pages 156-165 | Published online: 04 Dec 2013

References

  • P. L. Threadgill, A. J. Leonard, H. R. Shercliffand P. J. Withers: ‘Friction stir welding of aluminium alloys’, Int. Mater. Rev., 2009, 54, (2), 50–93.
  • M. Peel, A. Steuwer, M. Preuss and P. J. Withers: ‘Microstructure, mechanical properties and residual stresses as a function of welding speed in aluminium AA5083 friction stir welds’, Acta Mater., 2003, 51, 4791–4801.
  • P. Staron, M. Koçak, S. Williams and A. Wescott: ‘Residual stress in friction stir-welded Al sheets’, Physica B, 2004, 350B, (1–3), E491–E493.
  • M. Ericsson and R. Sandstrom: ‘Influence of welding speed on the fatigue of friction stir welds, and comparison with MIG and TIG’, Int. J. Fatig., 2003, 25, (12), 1379–1387.
  • P. J. Withers: ‘Residual stress and its role in failure’, Rep. Prog. Phys., 2007, 70, 2211–2264.
  • K. Masubuchi: ‘Analysis of welded structures: residual stresses, distortion, and their consequence’, 600; 1980, Oxford, Pergamon.
  • Y. P. Yang, P. Dong, X. Tian and Z. Zhang: ‘Prevention of hot cracking of high strength aluminum alloy by mechanical rolling’, Proc. 5th Int. Conf. on ‘Trends in welding research’, Pine Mountain, GA, USA, June 1998, ASM, 700–705.
  • Y. P. Yang, P. Dong, J. Zhang and X. Tian: ‘A hot cracking mitigation technique for TIG welding of high strength aluminum alloys’, Weld. J. Res. Suppl., 2000, 79, 9s–17s.
  • S. W. Williams, D. A. Price, A. Wescott, C. J. C. Harrison, P. Staron and M. Kocak: ‘Distortion control in welding by stress engineering’, Proc. Conf. on Welding and brazing of aerospace structures – modern applications and materials for new and in-service parts’, Berlin, Germany, May 2004, DVS Berichte, 95–101.
  • J. Altenkirch, A. Steuwer, P. J. Withers, S. W. Williams, M. Poad and S. W. Wen: ‘Residual stress engineering in friction stir welds by roller tensioning’, Sci. Technol. Weld., 2009, 14, 185–192.
  • P. Dong, J. K. Hong and P. Rogers: ‘Analysis of residual stresses in Al–Li repair welds and mitigation techniques’, Weld. J., 1998, 77, 439s–445s.
  • T. E. Barber, F. W. Brust, H. W. Mishler and M. F. Kanninen: ‘Controlling residual stresses by heat sink welding’, Report no. NP-2159-LD, Electric Power Research Institute, Palo Alto, CA, USA, 1981.
  • Q. Guan, C. X. Zhang and D. L. Guo: ‘Dynamic control of welding distortion by moving spot heat sink’, Weld. World, 1994, 33, 308–312.
  • J. Gabzdyl, M. Cole, S. W. Williams and D. Price: ‘Control of laser weld distortion by thermal tensioning’, in ‘20th ICALEO 2001’, Vols. 92 and 93, 1236–1245; 2001, Orlando, FL, Laser Institute of America.
  • E. M. van der Aa, M. J. M. Hermans, I. M. Richardson, N. M. van der Pers and R. Delhez: ‘Experimental study of the influence of a trailing heat sink on the welding residual stress distribution’, Mater. Sci. Forum, 2006, 524–525, 479–484.
  • P. Staron, M. Kocak and S. Williams: ‘Residual stresses in friction stir welded Al sheets’, Appl. Phys. A, 2002, 74A, S1161–S1162.
  • D. G. Richards, P. B. Prangnell, S. W. Williams and P. J. Withers: ‘Global mechanical tensioning for the management of residual stresses in welds’, Mater. Sci. Eng., 2008, 489, 351–362.
  • G. Luan, G. Li, C. Li and C. Dong: ‘DC-LSND friction stir welding’, Proc. 7th Int. Symp. on ‘Friction stir welding’, Awaji Island, Japan, May 2008, TWI.
  • R. V. Preston, S. D. Smith, H. R. Shercliff and P. J. Withers: ‘Finite element modelling of tig welding aluminium alloy 2024’, Sci. Technol. Weld. Join., 2003, 8, 10–18.
  • D. G. Richards, P. B. Prangnell, P. J. Withers, S. W. Williams, A. Wescott and E. C. Oliver: ‘FE modelling of mechanical tensioning for controlling residual stresses in friction stir welds’, Mater. Sci. Forum, 2006, 539–543, 4025–4030.
  • J. Altenkirch, A. Steuwer, M. J. Peel, P. J. Withers, S. W. Williams and M. Poad: ‘Mechanical tensioning of high-strength aluminum alloy friction stir welds’, Metall. Mater. Trans. A, 2008, 39A, (13), 3246–3259.
  • R. V. Preston, H. R. Shercliff, P. J. Withers and S. Smith: ‘Physically-based constitutive modelling of residual stress development in welding of Al alloy 2024’, Acta Mater., 2004, 52, (17), 4973–4983.
  • Y. J. Chao and X. H. Qi: ‘Thermal and thermo-mechanical modeling of friction stir welding of aluminum alloy 6061-T6’, J. Mater. Process. Manuf. Sci., 1999, 7, (2), 215–233.
  • Y. J. Chao, X. H. Qi and W. Tang: ‘Heat transfer in friction stir welding – experimental and numerical studies’, Trans. ASME, 2003, 125, 138–145.
  • P. A. Colegrove, M. Painter, D. Graham and T. Miller: Proc. 2nd Int. Symp. on ‘Friction stir welding’, Gothenburg, Sweden, 1999, TWI.
  • P. A. Colegrove and H. R. Shercliff: ‘Development of Trivex friction stir welding tool: Part I – two-dimensional flow modelling and experimental validation’, Sci. Technol. Weld. Join., 2004, 9, (4), 345–351.
  • P. A. Colegrove and H. R. Shercliff: ‘Development of the Trivex friction stir welding tool: Part II – three-dimensional flow modelling’, Sci. Technol. Weld. Join., 2004, 9, 352–361.
  • P. A. Colegrove and H. R. Shercliff: ‘3-dimensional CFD modelling of flow round a threaded friction stir welding tool profile’, J. Mater. Process. Technol., 2005, 169, (2), 320–327.
  • D. Price, C. Harrison, S. Williams, and A. Wescott: ‘The performance of active tensioning techniques for stress control in welding’, Report no. JS15232, BAE Systems, Bristol, UK, 2004.
  • P. J. Withers, M. Preuss, A. Steuwer and J. W. L. Pang: ‘Methods for the obtaining the strain-free lattice parameter when using diffraction to determine residual stress’, J. Appl. Crystall., 2007, 40, 891–904.
  • M. T. Hutchings, P. J. Withers, T. M. Holden and T. Lorentzen: ‘Introduction to the characterisation of residual stresses by neutron diffraction’, 424; 2005, London, CRC Press/Taylor & Francis.
  • E. M. van der Aa: ‘Local cooling during welding: prediction and control of residual stresses and buckling distortion’, PhD thesis, Delft University of Technology, Delft, The Netherlands, 2006.
  • J. Li: ‘Localized thermal tensioning technique to prevent buckling distortion’, Weld. World, 2005, 49, (11/12), 4–14.
  • P. Michaleris and X. Sun: ‘Finite element analysis of thermal tensioning techniques mitigating weld buckling distortion’, Weld. J., 1997, 76, 451s–457s.
  • R. M. Dull, J. R. Dydo and J. J. Russell: ‘Transient thermal tensioning for control of buckling distortion’, Proc. 82nd Ann. AWS Conv., Cleveland, OH, USA, May 2001, AWS, 95–96.

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Order Reprints Request Corporate Permissions

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

Request Academic Permissions

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.