1 |
O. N. Cora, M. Koc, 2009, Experimental Investigations on Wear Resistance Characteristics of Alternative Die Materials for Stamping of Advanced-high Strength Steels (AHSS), Int. J. Machine Tools Manuf., Vol. 49, pp.897-905.
DOI
ScienceOn
|
2 |
Y. J. Jeon, S. H. Kim, K. T. Yoon, Y. M. Heo, T. G. Lee, 2014, Indirect Prediction of Surface Damage for a Press Die with Wear Characteristics and Finite Element Stamping Analysis, Trans. Mater. Process., Vol. 23, No. 2, pp. 29~34.
DOI
|
3 |
J. F. Archard, 1953, Contact and Rubbing of Flat Surface, J. Appl. Phys., Vol.24, No. 8, pp. 981~988.
DOI
|
4 |
T. Mizuno, 2004, Wear Rate and Friction Coefficient of Tools in Metal Forming, J. Japan Soc. Tech Plasticity, Vol. 45, No. 520, pp. 315~319
|
5 |
B. Kubota, 2002, Recent Trend for Tool Development-Multiscale Alloy Design of Tool Materials, J. Japan Soc. Tech Plasticity, Vol. 53, No. 62, pp. 10~16.
|
6 |
O. N. Cora, K. Namiki, M. Koc, 2009, Wear Performance Assessment of Alternative Stamping Die Materials Utilizing a Novel Test System, Wear, Vol. 267, pp. 1123~1129.
DOI
ScienceOn
|
7 |
D. Young, T. Mulholland, M. Klein, 2009, Investigation of Tooling Durability for Advanced High Strength Steel, Presentation at the Seminar on Great Design in Steel, Livonia, MI.
|
8 |
T.G.Lee, A study on the dimensional change of STD11 die material in heat treatment and the optimum work condition of PVD die coating, MS Thesis, Kyungpook National University, 2007.
|
9 |
F. W. Lindvall, 2011, On Tool Steel, Surface Preparation, Contact Geometry and Wear in Sheet Metal Forming. Ph.D thesis, Karlstad University.
|
10 |
http://www.worldautosteel.org/projects/ahss-guidelines/
|
11 |
M. S E. Billur, T. Altan, Challenges in Forming Advanced High Strength Steels, http://nsmwww.eng.ohio-state.edu/634.pdf
|
12 |
J. B. Nam, 2013, Development of New Auto Steels and Application Technology, China Automotive Steel Conference, World Steel/CISA
|
13 |
A. A .Konieczny, 2003, Advanced High Strength Steels-Formability, U.S. Steel Automotive center, MI, American Iron and Steel Institute, (www.autosteel.org)
|
14 |
Y. S. Kim, S. H. Yang, S. H. Oh, J. B. Nam, 2014, Mechanical Properties of High Strength Steel Sheets and Its usage for Lightweight Vehicles, Trans. Mater. Process. Vol. 23, No. 7, pp. 453~464.
|
15 |
Y. S. Kim, C. I. Kim, J. B. Nam, S. H. Yang, 204, Press Forming Characteristics and Recent Forming Technologies of High Strength Steel Sheets, Trans. Mater. Process., Vol. 23, No. 5, pp. 323~334.
|
16 |
A. Yoshitake, K. Yasuda, 2011, Vision of Application Technologies for High Strength Steel Sheets Supporting Automobile Weight Reduction, J. Japan Soc. Tech. Plasticity, Vol.52, No. 606, pp. 766~771.
DOI
|
17 |
H. S. Choi, B. M. Kim, P. G. Suh, C. G. Kang, D. C. Ko, 2012, Qualitative Evaluation of Scratch Related Service Life of Stamping Tool for Ultra High Strength Steel using Friction Test, Proc. Korean Soc. Technol. Plasticity Spring Conf., pp.153~156.
|
18 |
M. Murakawa, M. Shima, 2004, Wear and life of shearing tool, J. Japan Soc. Tech Plasticity, Vol.45, No. 520, pp. 295~299.
|
19 |
http://www.uddeholm.com/files/Tooling_solutions.pdf
|
20 |
J. Zhang, 2008, Detection and Monitoring of Wear using Imaging Method, Ph.D thesis, Univ. Twente
|