Citation: S-21. H.C. Shih, M. Shi, D. Zeng, and Z. Xia, "Development of Empirical Shear Fracture Criterion for AHSS," SAE Int. J. Mater. Manuf. 3(1):670-675, 2010, doi.org/10.4271/2010-01-0977.
S-21
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S-20
Citation: S-20. J.H. Sung, "The Causes of “Shear Fracture” of Dual-Phase Steels," 2010 Dissertation, Ohio State University.
W-4
Citation: W-4. M.S. Walp, A. Wurm, J.F. Siekirk III, and A.K. Desai, “Shear Fracture in Advanced High Strength Steels", SAE Technical Paper 2006-01-1433, SAE 2006, doi.org/10.4271/2006-01-1433.
S-19
Citation: S-19. H.C. Shih, "An Experimental Study On Shear Fracture Of Advanced High Strength Steels", Presented at 2009 Great Designs in Steel, Sponsored by American Iron and Steel Institute.
M-5
Citation: M-5. Courtesy of P. Mooney, 3S – Superior Stamping Solutions, LLC.
D-7
Citation: D-7. Courtesy of J. Dykeman, Honda.
F-5
Citations: F-5. J.R. Fekete, “Manufacturing Challenges In Stamping And Fabrication Of Components From Advanced High Strength Steel,” International Symposium on Niobium Microalloyed Sheet Steel for Automotive Application, Edited by S. Hashimoto, S. Jansto, H....
K-9
Citations: K-9. J.H Kim, J.H. Sung, K. Piao, and R.H. Wagoner, “The shear fracture of dual-phase steel,” International Journal of Plasticity 27 (2011) 1658–1676, dx.doi.org/10.1016/j.ijplas.2011.02.009.
H-5
Citation: H-5. N. Habibi, T. Beier, H. Richter, M. Könemann, and S. Münstermann, “The effects of shear affected zone on edge crack sensitivity in dual-phase steels,” IDDRG 2019, 2019 IOP Conf. Ser.: Mater. Sci. Eng. 651 012073, doi:10.1088/1757-899X/651/1/012073....
F-18
Citation: F-18. R. Funada, "Maximizing Lightweighting In Steel Automotive Bodies And Frames With The Steel Tube Air Forming (STAF) Process," Presented at Global Automotive Lightweight Materials, Detroit, 2019.