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Finite Element Analysis on Experimental Stretch Forming Process of AA2014 Alloy at 423 to 623K Temperatures

Sheet metal forming processes are extremely important in the production of many different items. However, the issue of plastic instability, which frequently results in damaged goods, still exists in this industry. To solve this problem during production, it is crucial to take into account a number o...

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Published in:	E3S web of conferences 2023-01, Vol.430, p.1141
Main Authors:	Lade, Jayahari, Baloji, Dharavath, Sharath, M. Sai, Raju, G., Kalluri, Anil, Lakshmi, A. Anitha, Memoria, Minakshi
Format:	Article
Language:	English
Subjects:	finet element analysis forming limit diagram hot forming limiting dome height stretch forming
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creator	Lade, Jayahari Baloji, Dharavath Sharath, M. Sai Raju, G. Kalluri, Anil Lakshmi, A. Anitha Memoria, Minakshi
description	Sheet metal forming processes are extremely important in the production of many different items. However, the issue of plastic instability, which frequently results in damaged goods, still exists in this industry. To solve this problem during production, it is crucial to take into account a number of factors, limiting diagram of forming. Present case, the Aluminum Alloy (AA2014) has been used to examine its formability at various temperatures (423,523 and 623K) and at strain rates (0.1 mm/s). Stretch forming was used to acquire the study’s findings, and the Nakajima test was used. The findings were evaluated using fractography investigations carried out with SEM. The outcomes demonstrated that as the temperature rose, the material’s limiting stresses became more favorable. Utilizing LS-dyna software, the simulations were carried out. The experimental findings are within the acceptability limit according to this study.
doi_str_mv	10.1051/e3sconf/202343001141
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subjects	finet element analysis forming limit diagram hot forming limiting dome height stretch forming
title	Finite Element Analysis on Experimental Stretch Forming Process of AA2014 Alloy at 423 to 623K Temperatures
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