1. Jeswiet, J., Micari, F., Hirt, G., Bramley, A., Duflou, J. and
Allwood, J., “Asymmetric single point incremental forming of
sheet metal”, CIRP Annals, Vol. 54, No. 2, (2005), 88–114.
2. Matsubara, S., “Incremental backward bulge forming of a sheet
metal with a hemispherical head tool-a study of a numerical
control forming system II”, Journal of the Japan Society for
Technology of Plasticity, Vol. 35, No. 406, (1994), 1311–1316.
3. Hagan, E. and Jeswiet, J., “A review of conventional and modern
single-point sheet metal forming methods”, Proceedings of the
Institution of Mechanical Engineers, Part B: Journal of
Engineering Manufacture, Vol. 217, No. 2, (2003), 213–225.
4. Kim, T.J. and Yang, D. Y., “Improvement of formability for the
incremental sheet metal forming process”, International Journal
of Mechanical Sciences, Vol. 42, No. 7, (2000), 1271–1286.
5. Emmens, W.C., Sebastiani, G. and van den Boogaard, A. H., “The
technology of incremental sheet forming—a brief review of the
history”, Journal of Materials Processing Technology, Vol. 210,
No. 8, (2010), 981–997.
6. Rattanachan, K., Sirivedin, K. and Chungchoo, C., “Formability
of tailored welded blanks in single point incremental forming
process”, In Advanced Materials Research (Vol. 979), Trans Tech
Publications Ltd., (2014), 339–342.
7. Kim, Y.H. and Park, J. J., “Effect of process parameters on
formability in incremental forming of sheet metal”, Journal of
Materials Processing Technology, Vol. 130, (2002), 42–46.
8. Seong, D.Y., Haque, M.Z., Kim, J.B., Stoughton, T.B. and Yoon,
J. W., “Suppression of necking in incremental sheet forming”,
International Journal of Solids and Structures, Vol. 51, No. 15–
16, (2014), 2840–2849.
9. Kurra, S. and Regalla, S. P., “Experimental and numerical studies
on formability of extra-deep drawing steel in incremental sheet
metal forming”, Journal of Materials Research and Technology,
Vol. 3, No. 2, (2014), 158–171.
10. Duflou, J.R., Verbert, J., Belkassem, B., Gu, J., Sol, H., Henrard,
C. and Habraken, A. M., “Process window enhancement for
single point incremental forming through multi-step toolpaths”,
CIRP Annals, Vol. 57, No. 1, (2008), 253–256.
11. Ambrogio, G. and Filice, L., “On the use of Back-drawing
Incremental Forming (BIF) to improve geometrical accuracy in
sheet metal parts”, International Journal of Material Forming,
Vol. 5, No. 4, (2012), 269–274.
12. Mirnia, M.J. and Shamsari, M., “Numerical prediction of failure
in single point incremental forming using a phenomenological
ductile fracture criterion”, Journal of Materials Processing
Technology, Vol. 244, (2017), 17–43.
13. Ciubotariu, V. and Brabie, G., “Weld line behaviour during
uniaxial tensile testing of tailor welded blanks”, Archives of Civil
and Mechanical Engineering, Vol. 11, No. 4, (2011), 811–824.
14. Ebrahimzadeh, P., Baseri, H. and Mirnia, M. J., “Formability of
aluminum 5083 friction stir welded blank in two-point
incremental forming process”, Proceedings of the Institution of
Mechanical Engineers, Part E: Journal of Process Mechanical
Engineering, Vol. 232, No. 2, (2018), 267–280.
15. Fazli, A., Asadi, P. and Soltanpour, M., “Experimental andnumerical investigation of the formability of friction stir welded5083 aluminum alloy sheets in single point incremental formingprocess”, Modares Mechanical Engineering, Vol. 18, No. 3,(2018), 45–55.
16. Safdarian Korouyeh, R., Naeini, H.M., Liaghat, G.H. and Kasaei,M.M., “Investigation of weld line movement in tailor weldedblank forming”, In Advanced Materials Research (Vol. 445),Trans Tech Publications Ltd., (2012), 39–44.
17. Abbasi, M., Hamzeloo, S.R., Ketabchi, M., Shafaat, M.A. andBagheri, B., “Analytical method for prediction of weld linemovement during stretch forming of tailor-welded blanks”, TheInternational Journal of Advanced Manufacturing Technology,
Vol. 73, No. 5–8, (2014), 999–1009.
18. Silva, M.B., Skjødt, M., Vilaça, P., Bay, N. and Martins, P. A. F.,“Single point incremental forming of tailored blanks produced byfriction stir welding”, Journal of Materials ProcessingTechnology, Vol. 209, No. 2, (2009), 811–820.
19. Raut, J., Marathe, S. and Raval, H., “Numerical Investigation onSingle Point Incremental Forming (SPIF) of Tailor WeldedBlanks (TWBs)”, In Advances in Simulation, Product Design andDevelopment, Springer, (2020), 43–54.
20. Jackson, K. and Allwood, J., “The mechanics of incremental sheetforming”, Journal of Materials Processing Technology, Vol.209, No. 3, (2009), 1158–1174.
21. Malyer, E. and Müftüoğlu, H. S., “The Influence of FrictionConditions on Formability of DC01 Steels by ISF”, IOSRJournal of Mechanical and Civil Engineering Ver I, Vol. 12,(2015), 134–138.
22. Rojek, J., Hyrcza-Michalska, M., Bokota, A. and Piekarska, W.,“Determination of mechanical properties of the weld zone intailor-welded blanks”, Archives of Civil and MechanicalEngineering, Vol. 12, No. 2, (2012), 156–162.
23. Abdullah, K., Wild, P.M., Jeswiet, J.J. and Ghasempoor, A.,“Tensile testing for weld deformation properties in similar gagetailor welded blanks using the rule of mixtures”, Journal ofMaterials Processing Technology, Vol. 112, No. 1, (2001), 91–
97.