Coupled effect of thickness optimization and plastic forming history on crashworthiness performance of thin-walled square tube

Coupled Effect of Thickness Optimization and Plastic Forming History on Crashworthiness Performance of Thin-Walled Square Tube

10.21203/rs.3.rs-231138/v1 ◽

2021 ◽

Author(s):

Hasan Sofuoglu ◽

Salim Çam

Keyword(s):

Rolling Process ◽

Drawing Process ◽

High Velocity Impact ◽

Thickness Optimization ◽

Absorbed Energy ◽

Deep Drawing Process ◽

Coupled Effect ◽

Plastic Forming ◽

Thin Walled ◽

Energy Absorbers

Abstract Thin-walled tubes are widely used as energy absorbers due to their high crashworthiness performance. This study aims to evaluate the effect of plastic forming history carried out for thickness optimization on crashworthiness performance of thin-walled square tube (TWST). Within the scope of the study, a series of numerical analyses were conducted for the TWST using a commercial finite element (FE) software. In order to determine individual effect of optimization, FG thickness of TWST was first obtained using LS-OPT software. Later, thickness gradient was achieved by performing rolling process to consider individual plastic forming effect Afterwards, deep drawing process was carried out to shape TWST by considering springback and trimming effects. Finally, crash responses were obtained under axial high velocity impact loading to determine the coupled effect of optimization and plastic forming on the crashworthiness performance of the TWST. It was determined that the coupled effect, which takes plastic forming and optimization effects into account, reduced the peak crush force of the TWST by 24% and increased the absorbed energy value by 39%. The results obtained from this study showed that coupled effect of optimization and plastic forming processes has significant effect on the crashworthiness performance of the TWST and otherwise either overestimated or underestimated results are obtained.

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Researches on Control and Application of Wrinkles in the Thin-Walled Metal Plastic Forming Process

Applied Mechanics and Materials ◽

10.4028/www.scientific.net/amm.446-447.1193 ◽

2013 ◽

Vol 446-447 ◽

pp. 1193-1196

Author(s):

Zhu Lin Hu ◽

Lian Fa Yang ◽

Yu Lin He

Keyword(s):

Metal Forming ◽

Thin Metal ◽

Forming Process ◽

Forming Technology ◽

Plastic Forming ◽

The Common ◽

Thin Walled

The thin metal plastic forming is an indispensable metal forming technology. Wrinkling is one of the common defects in plastic forming. If this kind of defects can be used properly, the formability of metal will be better. In this paper, the recent researches on the methods of identifying wrinkles, distinction of the useful wrinkles and harmful wrinkles, control and application of the wrinkles are summarized. The useful wrinkles are expected to improve the forming property.

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Riesz Basis Property and Exponential Stability of Composite Thin-walled Beams Torsion Coupled Effect

Acta Analysis Functionalis Applicata ◽

10.3724/sp.j.1160.2010.00193 ◽

2011 ◽

Vol 12 (3) ◽

pp. 193-209

Author(s):

Feng GAO ◽

Genqi XU

Keyword(s):

Exponential Stability ◽

Riesz Basis ◽

Basis Property ◽

Riesz Basis Property ◽

Coupled Effect ◽

Thin Walled

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PROBABILISTIC TIME VARIANT ASSESSMENT OF THIN-WALLED STEEL MEMBERS UNDER ATMOSPHERIC CORROSION ATTACK

Journal of Civil Engineering and Management ◽

10.3846/13923730.2013.802709 ◽

2014 ◽

Vol 20 (3) ◽

pp. 404-414 ◽

Cited By ~ 5

Author(s):

Lucrezia Cascini ◽

Francesco Portioli ◽

Raffaele Landolfo

Keyword(s):

Atmospheric Corrosion ◽

Structural Reliability ◽

General Procedure ◽

Steel Structures ◽

Coupled Effect ◽

Steel Members ◽

Structural Capacity ◽

Outdoor Environments ◽

Thin Walled ◽

Maintenance And Inspection

Atmospheric corrosion is a relevant problem for steel structures and components exposed in aggressive environment in case of poor and/or unfeasible maintenance and inspection during service life. As for thin-walled members, the corrosion hazard can be exacerbated due to the thin thickness of components and the coupled effect between corrosion and buckling can significantly reduce the structural capacity of such structures. Following these considerations, this paper presents a study on the reliability of a thin-walled steel section subjected to the damage induced by atmospheric corrosion in outdoor environments, combining predictive corrosion models for metals with structural reliability applications. A general procedure for the evaluation of the time variant capacity is proposed and discussed in detail. Finally, an application to a C-lipped cold formed section is presented and a reliability analysis of the deteriorating section is carried out to evaluate the coupled effect of corrosion and buckling, according to the proposed procedure.

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