Citation: J-5. Japanese Standards Association (JSA), Japanese Industrial Standards (JIS), JIS Z 2248, "Metallic materials — Bend test", 2018.
J-5
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I-8
Citation: I-8. International Organization for Standardization (ISO) ISO 7438, "Metallic materials — Bend test", 2016.
A-26
Citation: A-26. ASTM International (ASTM), ASTM E 290, Standard Test Methods for Bend Testing of Material for Ductility.
S-23
Citation: S-23. SSAB, “Bending of high strength steel - Strenx®, Hardox®, Docol®." Enter the the title above in the Search tool at the link destination.
S-11
Citation: S-11. M. Shih, M. Shi, D. Zeng, and C. Xia, “Development of Shear Fracture Criterion for Dual Phase Steel Stamping”, 2009 SAE International, doi.org/10.4271/2009-01-1172.
S-22
Citation: S-22. J.H. Sung, J.H. Kim, R.H. Wagoner, “A Plastic Constitutive Equation Incorporating Strain, Strain-Rate, And Temperature,” International Journal of Plasticity 26 (2010) 1746–1771; doi.org/10.1016/j.ijplas.2010.02.005.
P-11
Citation: P-11. M.P. Pereira and B. Rolfe, “Temperature conditions during ‘cold’ sheet metal stamping,” Journal of Materials Processing Technology, Volume 214, Issue 8, August 2014, P. 1749, doi.org/10.1016/j.jmatprotec.2014.03.020.
F-28
Citation: F-28. A. Fallahiarezoodar and T. Altan, “Lightweighting in the automotive industry using sheet metal forming, Part 2: Optimization of process parameters,” Stamping Journal, March / April 2016.
F-6
Citation: F-6. A. Fallahiarezoodar, R. Peker and T. Altan, “Temperature Increase in Forming of Advanced High-Strength Steels Effect of Ram Speed Using a Servodrive Press.” Journal of Manufacturing Science and Engineering - Transactions of The ASME 138 (2016):...
H-6
Citation: H-6. A.W. Hudgins, D.K. Matlock, J.G. Speer, J.R. Fekete, and M.S. Walp, “The Susceptibility to Shear Fracture in Bending of Advanced High Strength Sheet Steels,” Proceedings of Steel Properties and Applications Conference (2007 MS&T), edited by L.C....