[ASM International, (1996), ASM Handbook, Vol. 14 - Forming and Forging. ]Search in Google Scholar
[Bhatt R. and Bhatt M. (2012), FLD Creation for SS304 Using Experiments & It’s Validation Using HyperForm 11.0, HTC 2012, http://www.altairatc.com/india/previous-years/htc2012/papers-2012/MFG_04_FLD_Creation_for_SS304_Using_Experiments_NirmaUniversity.pdf ]Search in Google Scholar
[Blaga A., (2011), Contribuții la deformarea incrementală a tablelor metalice subțiri, doctoral thesis, Universitatea “Lucian Blaga” din Sibiu. ]Search in Google Scholar
[Bruschi S., Poggio S., Quadrini F., Tata E. (2004), Workability of Ti6Al4V alloy at high temperature and strain rate, Materials Letters, vol. 58, no. 27-28, p. 3622-3629 ]Search in Google Scholar
[Callister, Jr., W.D. (2005), Fundamentals of Materials Science and Engineering (2nd ed.), United States of America: John Wiley & Sons, p. 199 ]Search in Google Scholar
[Deac V et al., (1995), The casting of titanium in dental prosthetics (in Romanian), Publishing House of the University of Sibiu. ]Search in Google Scholar
[Djavanroodi F., Janbakhsh M., Formability Characterization of Titanium Alloy Sheets, in Titanium Alloys - Advances in Properties Control, Edited by Jan Sieniawski and Waldemar Ziaja, Intech, 2013- p. 81-114 10.5772/55889]Search in Google Scholar
[Gottmann A. et al., (2011), Laser-assisted asymmetric incremental sheet forming of titanium sheet metal parts, Prod. Eng. Res. Devel., 5:263-271. ]Search in Google Scholar
[Kalpakjian S., Schmid S.R. (2003), Manufacturing Processes for Engineering Materials. 4th Ed., Prentice Hall.]Search in Google Scholar
[Matweb - Material Property Data (2013), http://www.matweb.com ]Search in Google Scholar
[Pop Gh., (2004), Biomateriale şi componente protetice metalice, Ed.Tehnopress, Iaşi, 2004. ]Search in Google Scholar
[Tajally M., Emadoddin E. (2011), Mechanical and anisotropic behaviors of 7075 aluminum alloy sheets, Materials & Design, Vol. 32, no. 3, March 2011, p. 1594-1599]Search in Google Scholar