**Author details**

Miklós Tisza Mechanical Engineering, University of Miskolc, Miskolc, Hungary

\*Address all correspondence to: tisza.miklos@uni-miskolc.hu

© 2020 The Author(s). Licensee IntechOpen. This chapter is distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/ by/3.0), which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

**119**

2012;**15**:1-12

*Development of Lightweight Steels for Automotive Applications*

Body Concepts (ULSAB) Overview Report. 2002. Available from: www.

[10] WorldAutoSteel. UltraLight steel auto closures—ULSAC. Engineering Report. 2001. Retrieved from: http:// www.worldautosteel.org/projects/

[11] WorldAutoSteel. UltraLight steel auto body—Advanced vehicle concepts—ULSAB-AVC. Engineering Report. 2002. Retrieved from: http:// www.worldautosteel.org/projects/

[12] WorldAutoSteel: Future Steel Vehicle—FSV. Final Engineering Report. 2011. Retrieved from: http:// www.autosteel.org/Programs/ Future%20 Steel%20 Vehicle.aspx

[13] Keeler S, Kimchi M. AHSS Application Guidelines Version 6.0. WorldAutoSteel. World Steel Association; 2017. Available from: https://www.worldautosteel.org

[14] Rashid MS, Rao B. Tempering characteristics of a vanadium

containing dual-phase steel. In: Kot RA, Bramfitt BL, editors. Fundamentals of Dual-Phase Steels. TMS-AIME, Warrendale, PA. 1981. pp. 246-264

[15] Hance B. Advanced high strength steel (AHSS) performance levels. In: SAE Technical Paper. 2018. DOI:

10.4271/2018-01-0629

[16] Li C, Li Z, Cen Y, et al. Microstructure and mechanical properties of dual phase strip steel in the overaging process of continuous annealing. Materials Science and Engineering A. 2015;**627**:281-289

[17] Adamczyk J, Grajcar A. Effect of heat treatment conditions on the

worldautosteel.org

ulsac-2/ulsac/

ulsab-avc-2/

FutureSteelVehicle

*DOI: http://dx.doi.org/10.5772/intechopen.91024*

[1] Tisza M, editor. Metal Forming in the Automotive Industry. 1st ed. Miskolc: University Press; 2015. 294 p. ISBN

[2] Lotus Engineering: An Assessment of Mass Reduction Opportunities for 2017-2020 Model Year Vehicle Programs.

[3] Wagener HW. New developments in sheet metal forming: Sheet materials, tools and machinery. Journal of Materials Processing Technology.

[4] Chung JY, Kwon O. Development of high performance auto steels. In: Proceedings of ICTP 2008. Gyeongju-Korea, 7-11 September. 2008. pp. 3-6

[5] Matlock DK, Speer JG. Processing opportunities for new advanced highstrength sheet steels. Materials and Manufacturing Processes. 2010;**25**:7-13

[6] Lesch C, Kwiaton N, Frank B. Advanced High Strength Steels (AHSS) for automotive applications: Tailored properties by smart microstructural

adjustments. Steel Research International. 2017;**88**:1-21. DOI:

[7] Nanda T, Singh V, Singh V, Chakraborty A, Sharma S. Third generation of advanced high-strength steels: Processing routes and properties.

Journal of Materials: Design and Applications. 2019;**233**(2):209-238. DOI: 10.1177/1464420716664198

[8] Matlock DK, Speer JG, Moor ED, et al. Recent developments in advanced high strength sheet steels for automotive applications: An overview. Journal of Engineering Science and Technology.

[9] International Iron and Steel Institute. UltraLight Steel Auto

10.1002/srin.201700210

International Council on Clean Transportation; 2010. 308 p

**References**

1997:342-357

978-963-358-082-0

*Development of Lightweight Steels for Automotive Applications DOI: http://dx.doi.org/10.5772/intechopen.91024*
