References
- T. Altan, 2006, Hot-stamping boron-alloyed steels for automotive parts Part I: Process methods and uses, Stamping Journal, December, pp. 40-41
- T. Altan, 2007, Hot-stamping boron-alloyed steels for automotive parts Part II: Microstructure, material strength changes during hot stamping, Stamping Journal, January, pp. 14-15
- Y. R. Cho, J. G. Oh, H. G. Kim, S. H. Pack, 2007, Developing Trends and Required Properties of Steel for Hot Press Forming, Conference proceeding of 2007 KSTP spring annual meeting, pp. 92-102
- M. Merklein, J. Lechler, M. Geiger, 2006, Characterisation of the flow properties of the quenchenable ultra high strength steel 22MnB5, Annals of the CIRP, Vol. 55, pp.229-232 https://doi.org/10.1016/S0007-8506(07)60404-1
- M. Merklein, J. Lechler, 2006, Investigation of the thermo-mechanical properties of hot stamping steels, Journal of Materials Processing Technology, Vol. 177, pp. 452-455 https://doi.org/10.1016/j.jmatprotec.2006.03.233
- M. Geiger, M. Merklein, C. Hoff, 2005, Basic Investigations on the Hot Stamping Steel 22MnB5, Advanced Materials Research Vol. 6-8, pp. 795-802 https://doi.org/10.4028/www.scientific.net/AMR.6-8.795
- A. Turetta, S. Bruschi, A. Ghiotti, 2006, Investigation of 22MnB5 formability in hot stamping operations, Journal of Materials Processing Technology, Vol. 177, pp. 396-400 https://doi.org/10.1016/j.jmatprotec.2006.04.041
- M. Eriksson, M. Oldenburg, M. C. Somani, L. P. Karjalainen, 2002, Testing and evaluation of material data for analysis of forming and hardening of boron steel components, Modelling and simulation in materials science and engineering, Vol. 10, pp. 277-294 https://doi.org/10.1088/0965-0393/10/3/303
- M. Naderi, L. Durrenberger, A. Molinari, W. Bleck, 2008, Constitutive relationships for 22MnB5 boron steel deformed isothermally at high temperature, Materials Science & Engineering A, Vol. 478, pp. 130-139 https://doi.org/10.1016/j.msea.2007.05.094
- H. S. Kim, M. H. Seo, S. J. Kim, S. C. Baik, W. J. Bang, 2001, Finite Element Analysis and Experimental Investigation on the Thermal Deformation Behavior of Steel Sheets during Press Hardening, J. Kor. Int. Met. & Mater., Vol. 39, No. 9, pp.1076-1083
- A. E. Tekkya, H. Karbasian, W. Homberg, M. Kleiner, 2007, Thermo-mechanical coupled simulation of hot stamping components for process design, Production Engineering Research and Development, Vol. 1, pp. 85-89 https://doi.org/10.1007/s11740-007-0025-9
- Marc 2005, http://www.mscsoftware.com products/ marc.cfm
- PAMSTAMP, 2007, http://www.esi-group.com/ newsite/products/metal-forming/pam-stamp-2g
- JMatPro, 2007, http://www.sentesoftware.co.uk
- Sente Software, 2007, JMatPro introductory manual
- N. Saunders, Z. Guo, A. P. Miodownik, J. -Ph. Schillé, 2004, Modelling the material properties and behavior of multicomponent alloys, 22nd CAD-FEM User's Meeting 2004, International Congress on FEM Technology with ANSYS CFX & ICEM CFD Conference, pp. 1-8
-
$DEFORM^{TM}$ -HT, 2008, http://www.deform.com/ - J. S. Kirkaldy, B. A. Thomson, E.A. Baganis, 1978, Hardenability concepts with applications to steel, eds. J.S. Kirkaldy and D.V. Doane,(Warrendale, PA: AIME, 1978), 82
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