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Science and Technology of Welding and Joining Volume 19, 2014 - Issue 6
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Original Article

Material adhesion and stresses on friction stir welding tool pins

M. MehtaDepartment of Mechanical Engineering, Indian Institute of Technology Bombay, Mumbai400076, India
,
A. DeDepartment of Mechanical Engineering, Indian Institute of Technology Bombay, Mumbai400076, IndiaCorrespondence[email protected]
&
T. DebRoyDepartment of Materials Science and Engineering, The Pennsylvania State University, University Park, PA16802, USA
Pages 534-540 | Received 07 Mar 2014, Accepted 10 May 2014, Published online: 03 Jun 2014

References

  • Thomas WM and Nicholas ED: ‘Friction stir welding for the transportation industries’, Mater. Des., 1997, 18, 269–273.
  • Rowe CED and Thomas WM: ‘Advances in tooling materials for friction stir welding’, Technical report, TWI, Cambridge, UK, 2005.
  • Rai R, De A, Bhadeshia HKDH and DebRoy T: ‘Review: friction stir welding tools’, Sci. Technol. Weld. Join., 2011, 16, (4), 325–342.
  • Colegrove PA and Shercliff HR: ‘CFD modelling of friction stir welding of thick plate 7449 aluminium alloy’, Sci. Technol. Weld. Join., 2006, 11, (4), 429–441.
  • Zettler R, Lomolino S, dos Santos JF, Donath T, Beckmann F, Lippman T and Lohwasser D: ‘Effect of tool geometry and process parameters on material flow in FSW of an AA2024-T351 alloy’, Weld. World, 2005, 49, (3/4), 41–46.
  • Hattingh DG, Blignault C, van Niekerk TI and James MN: ‘Characterization of the influences of FSW tool geometry on welding forces and weld tensile strength using an instrumented tool’, J. Mater. Process. Technol., 2008, 203, (1–3), 46–57.
  • Lorrain O, Favier V, Zahrouni H and Lawrjaniec D: ‘Understanding the material flow path of friction stir welding process using unthreaded tools’. J. Mater. Process. Technol., 2010, 210, (4), 603–609.
  • Fujii H, Cui L, Maeda M and Nogi K: ‘Effect of tool shape on mechanical properties and microstructure of friction stir welded aluminum alloys’, Mater. Sci. Eng. A, 2006, A419, (1–2), 25–31.
  • Mahmoud ERI, Takahashi M, Shibayanagi T and Ikeuchi K: ‘Effect of friction stir processing tool probe on fabrication of SiC particle reinforced composite on aluminium surface’, Sci. Technol. Weld. Join., 2009, 14, (5), 413–425.
  • Elangovan K, Balasubramanian V and Valliappan M: ‘Influences of tool pin profile and axial force on the formation of friction stir processing zone in AA6061 aluminium alloy’, Int. J. Adv. Manuf. Technol., 2008, 38, 285–295.
  • Elangovan K and Balasubramanian V: ‘Influences of tool pin profile and tool shoulder diameter on the formation of friction stir processing zone in AA6061 aluminium alloy’, Mater. Des., 2008, 29, 362–373.
  • Vijay SJ and Murugan N: ‘Influence of tool pin profile on the metallurgical and mechanical properties of friction stir welded Al-10 wt.10% TiB2 metal matrix composite’, Mater. Des., 2010, 31, (7), 3585–3589.
  • Sundaram NS and Murugan N: ‘Tensile behavior of dissimilar friction stir welded joints of aluminum alloys’, Mater. Des., 2010, 31, (9), 4184–4193.
  • Palanivel R, Mathews PK, Murugan N and Dinaharan I: ‘Effect of tool rotational speed and pin profile on microstructure and tensile strength of dissimilar friction stir welded AA5083-H111 and AA6351-T6 aluminum alloys’, Mater. Des., 2012, 40, 7–16.
  • Elangovan K and Balasubramanian V: ‘Influences of pin profile and rotational speed of the tool on the formation of friction stir processing zone in AA2219 aluminum alloy’, Mater. Sci. Eng. A, 2007, A459, 7–18.
  • Elangovan K and Balasubramanian V: ‘Influences of tool pin profile and welding speed on the formation of friction stir processing zone in AA2219 aluminum alloy’, J. Mater. Process. Technol., 2008, 200, 163–175.
  • Boz M and Kurt A: ‘The influence of stirrer geometry on bonding and mechanical properties in friction stir welding process’, Mater. Des., 2004, 25, 343–347.
  • Padmanaban G and Balasubramanian V: ‘Selection of FSW tool pin profile, shoulder diameter and material for joining AZ31B magnesium alloy - An experimental approach’, Mater. Des., 2009, 30, 2647–2656.
  • Mohanty HK, Mahapatra MM, Kumar P, Biswas P and Mandal NR: ‘Effect of tool shoulder and pin probe profiles on friction stirred aluminum welds - a comparative study’, J. Marine Sci. Appl., 2012, 11, 200–207.
  • Mohanty HK, Mahapatra MM, Kumar P, Biswas P and Mandal NR: ‘Modeling the effects of tool shoulder and probe profile geometries on friction stirred aluminum welds using response surface methodology’, J. Marine Sci. Appl., 2012, 11, 493–503.
  • Ramanjaneyulu K, Reddy GM, Rao AV and Markandeya R: ‘Structure – property correlation of AA2014 friction stir welds: Role of tool pin profile’, J. Mater. Eng. Perform., 2013, 22, (8), 2224–2240.
  • Buffa G, Campanella D and Fratini L: ‘On tool stirring action in friction stir welding of work hardenable aluminum alloys’, Sci. Technol. Weld. Join., 2013, 18, (2), 161–168.
  • Buffa G, Hua J, Shivpuri R and Fratini L: ‘Design of the friction stir welding tool using the continuum based FEM model’, Mater. Sci. Eng. A, 2006, A419, (1–2), 381–388.
  • Fratini L, Buffa G, Palmeri D, Hua J and Shivpuri R: ‘Material flow in FSW of AA7075-T6 butt joints: numerical simulation and experimental verification’, Sci. Technol. Weld. Join., 2006, 11, 412–421,
  • Chattopadhyay AB: ‘Machining and machine tools’, 84–115; 2000, New Delhi, Wiley India Pvt. Ltd.
  • Abukhshim NA, Mativenga PT and Sheikh MA: ‘An investigation of the tool–chip contact length and wear in high–speed turning of EN19 steel’, J. Eng. Manuf., 2004, 218, (8), 889–903.
  • Fatima A and Mativenga PT: ‘A review of tool–chip contact length models in machining and future direction for improvement’, J. Eng. Manuf., 2013, 227, (3), 345–356.
  • Friedman MY and Lenz E: ‘Investigation of the tool–chip contact length in metal cutting’, Int. J. Mach. Tool Des. Res., 1970, 10, 401–416.
  • Tay AO, Stevenson MG, Davis GdeV and Oxley PL: ‘A numerical method for calculating temperature distributions in machining from force and shear angle measurements’, Int. J. Mach. Tool Des. Res., 1976, 16, 335–349.
  • Arora A, Mehta M, De A and DebRoy T: ‘Load bearing capacity of tool pin during friction stir welding’, Int. J. Adv. Manuf. Technol., 2012, 61, 911–920.
  • DebRoy T, De A, Bhadeshia HKDH, Manvatkar VD and Arora A: ‘Tool durability maps for friction stir welding of an Aluminum Alloy’, Proc. R. Soc. A, 2012, 468A, 3552–3570.
  • Mehta M, De A and DebRoy T: ‘Probing load bearing capacity of circular and non-circular tools in friction stir welding’, Trends in Welding Research, Proc. 9th Int. Conf., 563–571; 2013, Materials Park, OH, ASM International.
  • ‘Standard test method for short-beam strength of polymer matrix composite materials and their laminates’, ASTM standard D2344/D2344M, ASTM International, West Conshohocken, PA, USA, 2013, 1–8.
  • Woolman J and Mottran RA: ‘The mechanical and physical properties of the British Standard EN steels (BS 970–1955)’, Volume 3 (EN 40 to EN363), 1–29; 1969, Oxford, Pargaon Press.

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