References
- 1. Baluch N., Udin Z. M., Abdullah Ch. S. (2014), Advanced High Strength Steel in Auto Industry: an Overview, Engineering, Technology & Applied Science Research, 4(4), 686-689.
- 2. Berretta J.R., Rossi W, Neves M.D.M, Almeida, I.A., Junior, N.D.V. (2007), Pulsed Nd:YAG laser welding of AISI 304 to AISI 420 stainless steels, Optics and Lasers in Engineering, 45(9), 960-966.
- 3. Bright G.W., Kennedy J.I., Robinson F, Evans M. Whittaker M.T., Sullivan J., Gao Y. (2011), Variability in the mechanical properties and processing conditions of a High Strength Low Alloy steel. Procedia Engineering, 10, 106-111.
- 4. Burdzik R., Folęga P., Konieczny Ł., Łazarz B., Stanik Z., Warczek J. (2012), Analysis of material deformation work measures in determination of a vehicle’s collision speed, Archives of Materials Science and Engineering, 58-1, 13-21.
- 5. Čada R. (2003), Evaluation of strain and material flow in sheet-metal forming, Journal of Mat. Processing Technology,138(1-3), 170-175.
- 6. Evin E., Tomáš M., Kmec J., Németh S., Katalinic B., Wessely E. (2014), The Deformation Properties of High Strength Steel Sheets for Auto-Body Components, Procedia Engineering, 69, 758-767.
- 7. Evin E., Tomáš M. (2012), Comparison of deformation properties of steel sheets for car body parts. Procedia Eng., 48, 115-122.
- 8. Fuchs E.R.H., Field D.R., Roth, R., Kirchain, R.E. (2008), Strategic materials selection in the automobile body. Economic opportunities for polymer composite design, Composites science and technology, 68, 1989-2002.
- 9. Hanninen H., Romu J., IIola R., Tervo J., Laitinen A. (2001), Effects of processing and manufacturing of high nitrogen-containing stainless steels on their mechanical, corrosion and wear properties. Journal of Mat. Processing Technology, 117(3), 424-430
- 10. Jacob G.C., Fellers J.F., Simunovic S., Starbuck J.M. (2004), Energy Absorption in Polymer Composites for Automotive Crashworthiness, Journal of Composite Materials, 36, 813.
- 11. Kramer F. (2009), Passive Safety of Vehicles, Vieweg+Teubner, Weisbaden. (in German)
- 12. Mei L., Chen G., Jin X., Zhang Y., Wu Q. (2009) Research on laser welding of high-strength galvanized automobile steel sheets, Optics and Lasers in Engineering, 47(11), 1117-1124
- 13. Merklein M., Johannes M., Lechner M., Kuppert A. (2014), Review on tailored blanks—Production, applications and evaluation, Journal of Materials Processing Technology, 214(2), 151-164
- 14. Mihaliková M., Német M., Girman V. (2015), DP 600 steel research of dynamic testing, Metalurgija, 54(1), 211-213.
- 15. Rediers B., Yang B., Juneja V. (1998), Static and dynamic stiffness - one test both results, Proc. of the 16th IMAC, 30-35.
- 16. Richter M., Pape H.Ch., Otte D., Krettek Ch. (2005) Improvements in passive car safety led to decreased injury severity - a comparison between the 1970s and 1990s, Injury, 36(4), 484-488.
- 17. Schrek A., Činák M., Švec P., Kostka P., Gajdošová V. (2014), Influence of Stress-strain Characteristic of Laser Weld Join on the Total Formability of Tailored Welded Blanks, Hutnícke listy, 67(4), 41-44 (in Slovak).
- 18. Solfronk P., Sobotka J., Kolnerová M., Zuzánek L. (2014), Influence of temperature on formability of magnesium alloy AZ31B. 23rd Int. Conf. METAL 2014, Brno, Czech Republic, 1045-1050.
- 19. Vlk F. (2000), Auto-body of vehicles, Editing and publishing company Vlk, Brno.
- 20. Wallentowitz H., Adam H. (1996), Predicting the crashworthiness of vehicle structures made by lightweight design materials and innovative joining methods, International Journal of Crashworthiness, 1(2), 163-180.
- 21. Wang X.N., Chen CH.J., Wang H.S., Zhang S.H., Zhang M., Luo X. (2015), Microstructure formation and precipitation in laser welding of microalloyed C–Mn steel, Journal of Materials Processing Technology, 226(12), 106-114
- 22. Yan J., Gao M., Zeng X. (2010), Study on microstructure and mechanical properties of 304 stainless steel joints by TIG, laser and laser-TIG hybrid welding, Optics and Lasers in Engineering, 48(4), 512-517