Optimization of process parameters for high efficiency laser forming of advanced high strength steels within metallurgical constraints

Journal article

Sheikholeslami, G., Griffiths, J., Dearden, G. and Edwardson, S. P. 2016. Optimization of process parameters for high efficiency laser forming of advanced high strength steels within metallurgical constraints. Physics Procedia. 83, pp. 277-285. https://doi.org/10.1016/j.phpro.2016.08.025

Publication dates
Authors	Sheikholeslami, G., Griffiths, J., Dearden, G. and Edwardson, S. P.
Abstract	Laser forming (LF) has been shown to be a viable alternative to form automotive grade advanced high strength steels (AHSS). Due to their high strength, heat sensitivity and low conventional formability show early fractures, larger spring-back, batch-to-batch inconsistency and high tool wear. In this paper, optimisation of the LF process parameters has been conducted to further understand the impact of a surface heat treatment on DP1000. A FE numerical simulation has been developed to analyse the dynamic thermo-mechanical effects. This has been verified against empirical data. The goal of the optimisation has been to develop a usable process window for the LF of AHSS within strict metallurgical constraints. Results indicate it is possible to LF this material, however a complex relationship has been found between the generation and maintenance of hardness values in the heated zone. A laser surface hardening effect has been observed that could be beneficial to the efficiency of the process.
Keywords	Laser forming; Laser; Optimization; AHSS; Micro hardness
Year	2016
Journal	Physics Procedia
Journal citation	83, pp. 277-285
Publisher	Elsevier
ISSN	1875-3892
Digital Object Identifier (DOI)	https://doi.org/10.1016/j.phpro.2016.08.025
Official URL	https://www.sciencedirect.com/science/article/pii/S1875389216301328
Online	16 Sep 2016
Publication process dates
Deposited	12 Feb 2025
Publisher's version	1-s2.0-S1875389216301328-main.pdf License CC BY-NC-ND 4.0 File Access Level Open
Output status	Published

Permalink -

https://repository.canterbury.ac.uk/item/9q493/optimization-of-process-parameters-for-high-efficiency-laser-forming-of-advanced-high-strength-steels-within-metallurgical-constraints

Download files

Publisher's version

	1-s2.0-S1875389216301328-main.pdf
License: CC BY-NC-ND 4.0
File access level: Open

6
total views
0
total downloads
6
views this month
0
downloads this month

Export as

Related outputs

Effect of component geometry on the dynamic thermal field generated in the laser forming of AA6061-T6 sheet

Sheikholeslami, G. 2024. Effect of component geometry on the dynamic thermal field generated in the laser forming of AA6061-T6 sheet. Procedia CIRP. https://doi.org/https://www.sciencedirect.com/science/article/pii/S2212827124005365

Impact of CDIO framework pedagogical approach adoption on the student learning and experience

Nortcliffe, A., Matei, G., Malik, M., Manna, S., Sheikholeslami, G. and James, H. 2024. Impact of CDIO framework pedagogical approach adoption on the student learning and experience.

Micro-additive manufacturing technologies of three-dimensional MEMS

Hassanin, H., Sheikholeslami, G., Pooya, S. and Ishaq, R. 2021. Micro-additive manufacturing technologies of three-dimensional MEMS . Advanced Engineering Materials. https://doi.org/10.1002/adem.202100422

Adaptive and flexible online learning during Covid19 lockdown

Manna, S., Nortcliffe, A., Sheikholeslami, G. and Richmond-Fuller, A. 2021. Adaptive and flexible online learning during Covid19 lockdown.

Developing engineering growth mindset through CDIO outreach activities

Manna, S., Nortcliffe, A. and Sheikholeslami, G. 2020. Developing engineering growth mindset through CDIO outreach activities. in: Proceedings of the 16th International CDIO Conference Gothenburg, Sweden CDIO.

CDIO Open day learning activity to inspire the next generation of engineering applicants

Nortcliffe, A., Nortcliffe, A. and Sheikholeslami, G. 2019. CDIO Open day learning activity to inspire the next generation of engineering applicants.

Reverse analysis of scan strategies for controlled 3D laser forming of sheet metal

Gao, H., Sheikholeslami, G., Dearden, G. and Edwardson, S. P. 2017. Reverse analysis of scan strategies for controlled 3D laser forming of sheet metal. Procedia Engineering. 183, pp. 369-374. https://doi.org/10.1016/j.proeng.2017.04.054

Optical control of resonant light transmission for an atom-cavity system

Sharma, A., Ray,T., Sawant, R. V., Sheikholeslami, G., Rangwala. R. and Budker, D. 2015. Optical control of resonant light transmission for an atom-cavity system. Physical Review A. 91 (4), p. 043824. https://doi.org/10.1103/PhysRevA.91.043824

Goal driven optimization of process parameters for maximum efficiency in laser bending of advanced high strength steels

Griffiths, J., Riley, M. J. W., Sheikholeslami, G., Edwardson, S. P. and Dearden, G. 2015. Goal driven optimization of process parameters for maximum efficiency in laser bending of advanced high strength steels. Key Engineering Materials . 639, pp. 115-122. https://doi.org/10.4028/www.scientific.net/KEM.639.115

Optimization of beam mode for high efficiency laser thermal forming within metallurgical constraints

Edwardson, S. P., Griffiths, J., Sheikholeslami, G. and Dearden, G. 2014. Optimization of beam mode for high efficiency laser thermal forming within metallurgical constraints. Physics Procedia. 56, pp. 1392-1399. https://doi.org/10.1016/j.phpro.2014.08.069

Laser forming of ERW steel square tubes within metallurgical constraints

Sheikholeslami, G., Griffiths, J., Edwardson, S. P., Watkins, K. and Dearden, G. 2013. Laser forming of ERW steel square tubes within metallurgical constraints. Key Engineering Materials . 549, pp. 68-75. https://doi.org/10.4028/www.scientific.net/KEM.549.68