Citation: M-38. K. Mori and D. Ito, "Prevention of oxidation in hot stamping of quenchable steel sheet by oxidation preventive oil," CIRP Annals, vol. 58, pp. 267-270, 2009, doi.org/10.1016/j.cirp.2009.03.055.
M-38
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F-30
Citation: F-30. T. Fröhlich, "Maximum safety and lightweight potential due to use of new high strength steels," Presented at Outokumpu Experience 2013, May 22-23, London, UK, 2013.
M-37
Citation: M-37. J.B. Moreau, et al., "MaX1.6 press hardening stainless steel for BIW panels," Presented at Materials in Car Body Engineering 2017, May 16-18, Bad Nauheim, Germany, 2017.
B-40
Citation: B-40. G. Badinier, J.B. Moreau, B. Petit, C. Boissy, J.D. Mithieux, S. Saedlou and J. Paegle, "Development of press hardening stainless steels for body-in-white application," in 6th International Conference on Hot Sheet Metal Forming of High Performance...
H-42
Citation: H-42. J. M. Herbelin, "1000-2000 MPa Martensitic stainless steels for flexible hot forming processes," Presented at Materials in Car Body Engineering 2014, May 13-14, Bad Nauheim, Germany, 2014.
M-36
Citation: M-36. K.-i. Mori, T. Maeno, H. Yamada and H. Matsumoto, "1-Shot hot stamping of ultra-high strength steel parts consisting of resistance heating, forming, shearing and die quenching," International Journal of Machine Tools and Manufacture, vol. 89, pp....
G-36
Citation: G-36. A.T. Gaynor and J.K. Guest, “Topology optimization considering overhang constraints: Eliminating sacrificial support material in additive manufacturing through design”, Structural and Multidisciplinary Optimization volume 54, 2016, pages 1157–1172,...
A-63
Citation: A-63. “Additive Manufacturing Technologies – Rapid Prototyping to Direct Digital Manufacturing,” Springer, Boston, MA, 2010, doi.org/10.1007/978-1-4419-1120-9;
A-62
Citation: A-62. D. G. Ahn, H.W. Kim, S.H. Park, “Manufacture of mould with a high energy efficiency using rapid manufacturing process.” AIP Conference Proceedings 1252, 185 (2010), doi.org/10.1063/1.3457549;
M-35
Citation: M-35. B. Müller, “Konturnahe Temperierung beim Presshärten,” Fraunhofer Institut für Werkzeugmaschinen und Umformtechnik (IWU): Chemnitz, Germany, 2013.