Finite element analysis of sheet metal forming process

Show simple item record Aljibori, H.S.S. en_US Hamouda, A.M. en_US
date.accessioned 2009-12-23T13:42:52Z en_US
date.available 2009-12-23T13:42:52Z en_US
date.issued 2009-07 en_US
identifier.citation Aljibori, H. S. S., & Hamouda, A. M. (2009). Finite Element Analysis of Sheet Metal Forming Process. European Journal of Scientific Research, 33(1), 57–69 en_US
identifier.issn 1450-216X en_US
identifier.uri en_US
description.abstract Minimization of response times and costs and maximization of the efficiency and quality in producing a product are imperative for survival in the competitive manufacturing industry. Sheet metal forming is a widely used and costly manufacturing process, to which these considerations apply. Aluminum sheet becomes favorable compare to steel regards to some improvement at aerodynamic designs, increased engine efficiency and fuel economy. Wide range of aluminum automotive product included doors, fenders, bumpers face bars, seat frames and roof panels have been produced. This paper was carried out to study the finite element (elastic-plastic) analysis of sheet metal forming process using the finite element software. LUSAS simulation was carried out to gain accurate and critical understanding of sheet forming process. Axisymmetry element mesh and plain strain element mesh were use incorporated with slideline features to model and study the sheet metal forming process. Simulation of elasticplastic behavior of aluminum sheet was carried out under non-linear condition to investigate sheet metal forming process. en_US
language.iso en en_US
publisher EuroJournals Publishing, Inc. en_US
subject FEA en_US
subject LUSAS simulation en_US
subject Sheet metal forming process en_US
title Finite element analysis of sheet metal forming process en_US
type Article en_US

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