Please use this identifier to cite or link to this item: http://10.1.7.192:80/jspui/handle/123456789/1409
Title: Simulation Of Deep Drawing Process for Different Materials
Authors: Dave, Jatin
Iyer, V. R.
Patel, Jignesh P.
Keywords: Explicit Analysis
FEA
Mechanical Faculty Paper
Faculty Paper
ITFME023
ITFME002
NUCONE
NUCONE-2007
Issue Date: 2007
Publisher: Allied Publishers Pvt. Ltd.
Citation: National Conference on Current Trends in Technology (NUCONE-2007); Nov.29-Dec.1, 2007
Abstract: The computer simulation of sheet metal forming processes is particularly attractive because of the cost of materials and of dies, the design of which is still based on trial-and-error procedures. However, the large number of variables, which are usually unknown but which control these kinds of processes, demands more flexible and reliable numerical techniques in order to be able to solve these problems. Analytical solutions are limited due to the strong non-linear nature of the deformation procedure, in particular when complex shapes are formed [1]. Finite element method (FEM) analysis, therefore, aims to solve such sheet metal forming problems by modeling them with different forming conditions until a satisfactory final solution is achieved. In this paper, simulation results were compared for the strain distribution curves for radial er, hoop e„ and thickness 6t, strains. Different plots for strains and deformation modes of each FE were model constructed. The comparison between the simulation results of FE model and the corresponding experimental results were done. Enabled the selection of the most effective value- of the simulating parameters, i.e. usim, and u,.
Description: NUCONE-2007; Page No. 223-226
URI: http://hdl.handle.net/123456789/1409
ISBN: 979-81-8424-261-3
Appears in Collections:Faculty Paper, ME

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