Goal Driven Optimization of Process Parameters for Maximum Efficiency in Laser Bending of Advanced High Strength Steels

Goal Driven Optimization of Process Parameters for Maximum Efficiency in Laser Bending of Advanced High Strength Steels

Laser forming or bending is fast becoming an attractive option for the forming of advanced high strength steels (AHSS), due primarily to the reduced formability of AHSS when compared with conventional steels in traditional contact-based forming processes. An inherently iterative process, laser formi...

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Veröffentlicht in:Key engineering materials 2015-03, Vol.639, p.115-122
Hauptverfasser: Edwardson, Stuart P., Dearden, Geoff, Riley, Mike J.W., Griffiths, Jonathan, Sheikholeslami, Ghazal
Format: Artikel
Sprache:eng
Schlagworte:
Bend strength
Efficiency
Engineering schools
Forming
Heat treating
High strength steels
Investigations
Lasers
Mathematical models
Neural networks
Optimization
Process parameters
Regression analysis
Steel
Structural steels
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container_end_page 122
container_issue
container_start_page 115
container_title Key engineering materials
container_volume 639
creator Edwardson, Stuart P.
Dearden, Geoff
Riley, Mike J.W.
Griffiths, Jonathan
Sheikholeslami, Ghazal
description Laser forming or bending is fast becoming an attractive option for the forming of advanced high strength steels (AHSS), due primarily to the reduced formability of AHSS when compared with conventional steels in traditional contact-based forming processes. An inherently iterative process, laser forming must be optimized for efficiency in order to compete with contact based forming processes; as such, a robust and accurate method of optimal process parameter prediction is required. In this paper, goal driven optimization is conducted, utilizing numerical simulations as the basis for the prediction of optimal process parameters for the laser bending of DP 1000 steel. A key consideration of the optimization process is the requirement for minimal micro-structural transformation in automotive grade high strength steels such as DP 1000.
doi_str_mv 10.4028/www.scientific.net/KEM.639.115
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subjects Bend strength
Efficiency
Engineering schools
Forming
Heat treating
High strength steels
Investigations
Lasers
Mathematical models
Neural networks
Optimization
Process parameters
Regression analysis
Steel
Structural steels
title Goal Driven Optimization of Process Parameters for Maximum Efficiency in Laser Bending of Advanced High Strength Steels
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