References:
1- M. Pouranvari., and S.P.H. Marashi., Keyfactors influencing mechanical performance of
dual phase steel resistance spot welds, SciTechnol Weld Join, Vol15,pp.149-155, 2010.
2- M. Pouranvari., H. R. Asgari., S. M.Mosavizadeh., P. H. Marashi., and M.
Goodarzi., Effect of weld nugget size onoverload failure mode of resistance spot welds,
Sci.Technol. Weld. Joining, Vol.12, pp.217-225, 2007.
3- N. T. Williams., and J. D. Parker., Int.Mater. Rev., Review of resistance spot welding
of steel sheets: Part 1 - Modelling and controlof weld nugget formation, Vol.49, p.45 -75,
2004.
4- X. Sun., E.V. Stephens., and M.A. Khaleel.,Effects of fusion zone size and failure mode on
peak load and energy absorption of advancedhigh strength steel spot welds under lap shear
loading conditions, Eng. Fail. Anal., Vol.15,pp. 356-367,2008.
5- M. Pouranvari., A. Abedi., P. Marashi., andM. Goodarzi., Effect of expulsion on peak load
and energy absorption of low carbon resistancespot welds, Sci. Technol. Weld. Joining,
Vol.13, pp.39-43., 2008
6- N. Harlin., T. B. Jones., and J. D. Parker.,Sci. Technol. Weld. Join, Weld growth
mechanisms during resistance spot welding oftwo and three thickness lap joints, Vol.7,
pp.35-41, 2002.
7- N. Harlin., T. B. Jones, and J. D. Parker,Weld growth mechanism of resistance spot
welds in zinc coated steel ,J. Mater. Proc.Tech, Vol.143-144, pp.448-45, 2003.
8- M.A. Ninshu., and H. Murakawa.,Numerical and experimental study on nugget
formation in resistance spot welding for threepieces of high strength steel sheets, J. Mater.
Proc. Tech , Vol.210,pp.2045-2052, 2010.
9- J. Shen., Y. Zhang., X. Lai., and P.C.Wang., Modeling of resistance spot welding of
multiple stacks of steel sheets, Materials &Design,Vol.32,pp.550-560. 2011.
10- T. Coon., A. Elliott., A. Joaquin., R.Koganti., A. Wexler., R. Bhatnagar., and S.
Lalam., Resistance Spot Weldability of ThreeMetal Stack Dual Phase 600 Hot-dipped
Galvanized Steel, SAE technical paper, SAE,Detroit, Michigan, SAE 2007-01-1363.
11- B.H. Choi., D.H. Joo., and S.H. Song.,Observation and prediction of fatigue behavior
of spot welded joints with triple thin steelplates under tensile-shear loading, Int. J.
Fatigue, Vol.29, pp.20-627, 2007.
12- American Welding Society:"Recommended Practices for Test Methods for
Evaluating the Resistance Spot WeldingBehavior of Automotive Sheet Steel
Materials", ANSI/AWS/SAE/D8.9-97, 1997.
13- J. C. Feng., Y. R. Wang., and Z. D.Zhang., Nugget growth characteristic for
AZ31B magnesium alloy during resistancespot welding, Sci. Technol. Weld. Joining,
Vol. 11, pp.154-162, 2006.
14- M. Marya., K. Wang., L. G. Hector., andX. Gayden, Tensile-Shear Forces and Fracture
Modes in Single and Multiple Weld Specimensin Dual-Phase Steels, J. Manufact. Sci. Eng.,
Vol.128, pp. 287-298, 2006.
15- X. Sun., E. V. Stephens., R. W. Davies.,M. A. Khaleel., and D. J. Spinella., Effects of
fusion zone size on failure modes and staticstrength of aluminum resistance spot welds,
Weld. J., Vol.83, pp.88s-195s, 2004.
16- P. Marashi., M. Pouranvari., S.Amirabdollahian., A. Abedi., and M.
Goodarzi., Microstructure and FailureBehavior of Dissimilar Resistance Spot Welds
between Low Carbon Galvanized andAustenitic Stainless Steels, Mater. Sci Eng. A,
Vol.480, pp.175-180, 2008.