A. L. Nogueira, M. J. Silva, K. Kishida, S. Keeler, and M. Kimchi, Da carroça ao ultraleve reduction High strength steel sheets for light weight vehicle. Nippon steel technical report, Advanced High-Strength Steels Application Guidelines V5.World Auto Steel, pp.12-16, 2000.

F. Placidi, R. Vadori, F. Cimolin, and F. Campana, An efficient approach to springback compensation for ultra high strength steel structural components for the automotive field Variation of elastic modulus during plastic deformation and its influence on springback, Materials & Design, vol.306, issue.3, pp.846-850, 2008.

M. Ramezani, Z. M. Ripin, R. Ahmad, S. J. Barnes, A. R. Bhatti et al., Modelling of kinetic friction in V-bending of ultra-high-strength steel sheets-4), 101-110 Friction stir welding in HSLA-65 steel: part I. Influence of weld speed and tool material on microstructural development, Metallography, Principles and Practice Caracterização metalográfica de um aço de fases complexas (CP), pp.2342-2355, 1999.

S. Ján, J. &miroslav, M. G. Lee, S. J. Kim, R. H. Wagoner et al., Springback prediction in sheet metal forming processes Constitutive modeling for anisotropic/asymmetric hardening behavior of magnesium alloy sheets: Application to sheet springback Hall?Petch relation and boundary strengthening Strengthening mechanisms in nanostructured high-purity aluminium deformed to high strain and annealed, Journal for Technology of Plasticity International Journal of Plasticity Scripta Materialia Acta Materialia, vol.3714, issue.51814, pp.70-104, 2004.