Sage Journals: Discover world-class research

Abstract

This work presents the formulation of a mathematical model with process parameters and tool geometry to predict the response, joint strength, of double side friction stir welded aluminium alloy 6082-T6. The welding was carried out on 8 mm aluminium alloy plates. The process parameters considered were tool rotational speed or spindle speed, welding speed and shoulder penetration, and the tool geometries considered were pin profile and shoulder profile. A five-factor, five-level central composite design was used to determine the number of experiments. The tensile strength of the welded specimens was tested, and its correlation with process parameters was assessed. A mathematical model had been developed to predict the tensile strength using response surface methodology at 95% confidence level, and it was validated using analysis of variance.

Keywords

Friction stir welding Milling machine Aluminium alloy 6082-T6 Double side weld Response surface method

Get full access to this article

View all access options for this article.

References

Thomas

, Nicholas

, Needham

, Murch

, Templesmith

, Dawes

: GB Patent Application No. 9125978·8, December 1991.

Jha

, Murty

SVSN

, Diwakar

, Sreekumar

: ‘Metallurgical analysis of cracking in weldment of propellant tank’, Eng. Fail. Anal., 2010, 3, 265–273.

Huang

, Kouc

: ‘Partially melted zone in aluminium welds – liquation mechanism and directional solidification’, Weld. Res. Suppl., 2000, 79, 113–120.

Adamowski

, Szkodo

: ‘Friction stir welds (FSW) of aluminium alloy AW6082-T6’, J. Achiev. Mater. Manuf. Eng., 2007, 20, (1–2), 403–406.

Arici

, Sinmaz

: ‘Effects of double pass of the tool on friction stir welding of polyethylene’, J. Mater. Sci., 2005, 40, 3313–3316.

Gopi

, Manonmani

: ‘Influence of shoulder profile and shoulder penetration on joint strength; of friction stir welded AA6082 in conventional milling machine’, Eur. J. Sci. Res., 2012, 73, (1), 20–32.

Milton

, Mynors

: ‘Utilisation of engineering workshop equipment for friction stir welding’, J. Mater. Process. Technol., 2006, 177, 336–339.

Vijay

, Murugan

: ‘Influence of tool pin on the metallurgical and mechanical properties of friction stir welded Al–10 Wt% TiB₂ metal matrix composite’, Mater. Des., 2010, 31, 3585–3589.

Elangovan

, Balasubramanian

, Babu

: ‘Predicting tensile strength of friction stir welded AA6061 aluminium alloy joints by a mathematical model’, J. Mater. Des., 2009, 30, 188–193.

10.

Montgomery

: ‘Design and analysis of experiments’, 5th edn; 2001, New York, John Wiley & Sons.

11.

Box

GEP

, Hunter

: ‘Statistics for experiment’; 1978, New York, John Wiley Publication.

12.

Gopalakrishnan

, Murugan

: ‘Prediction of tensile strength of friction stir welded aluminium matrix TiCp particulate reinforced composite’, Int. J. Mater. Des., 2011, 32, 462–467.

13.

ASTM : ‘Standard testing of metallic materials’, ASTM-E08, in ‘Annual book of ASTM standards’, Section 3, Vol. 03.01, ‘Metals test methods and analytical procedure’, 90; 2006, West Conshohocken, PA, ASTM.

14.

Lee

: ‘Mechanical properties related to microstructural variation of 6061 aluminium alloy joints by friction stir welding’, Mater. Trans., 2004, 45, (5), 1700–1705.

15.

Ouyang

, Kovacevic

: ‘Material flow during friction stir welding (FSW) of the same and dissimilar aluminium alloys’, J. Mater. Eng. Perform., 2002, 11, (1), 51–63.

16.

Elangovan

, Balasubramanian

: ‘Influences of tool pin profile and welding speed on the formation of friction stir processing zone in AA2219 aluminium alloy’, J. Mater. Process. Technol., 2008, 200, 163–175.

17.

Badrinarayana

, Shi

, Li

, Okamoto

: ‘Effect of tool geometry on hook formation and static strength of friction stir spot welded aluminium 5754-O sheets’, Int. J. Mach. Tools Manuf., 2009, 49, 814–823.

Predicting tensile strength of double side friction stir welded 6082-T6 aluminium alloy

Abstract

Keywords

Get full access to this article

References