http://iaeme.com/Home/journal/IJMET 759 [email protected] International Journal of Mechanical Engineering and Technology (IJMET) Volume 8, Issue 10, October 2017, pp. 759–767, Article ID: IJMET_08_10_082 Available online at http://iaeme.com/Home/issue/IJMET?Volume=8&Issue=10 ISSN Print: 0976-6340 and ISSN Online: 0976-6359 © IAEME Publication Scopus Indexed FINITE ELEMENT ANALYSIS OF DEEP DRAWING PROCESS TO INVESTIGATE EFFECT OF FRICTION Chandra Pal Singh Assistant Professor Mechanical Department, Samrat Ashok Technological Institute Vidisha (M.P.), India Geeta Agnihotri Professor Mechanical Department, MANIT, Bhopal (M.P.) India ABSTRACT This research article represents deep drawing simulations of steel sheet to investigate influence of friction on product quality. The process was simulated in HyperMesh software and results were verified from reported journal data. To investigate the effect of friction, geometry, material properties and all boundary conditions were selected form research article. The process was simulated for same process parameters and then keeping all parameters constant only friction was changed. Part modelling was done on CATIA and then CAD models were imported in Hypermesh. Hypermesh was used to mesh all the components involved in the process and Incremental Radioss solver was used to generate results. Von Mises stress, plastic strain, thickness distribution and thinning rate were studied to access friction effect on product quality. Taguchi’s optimization technique was used for analysis of process parameters. ANNOVA method was applied to find percentage influence of process parameters. It was concluded that friction is most influential parameter in case of formation of complicated geometries. Keywords: Simulation and Modeling, Von Mises Stress, Forming Load, Taguchi Method, ANNOVA Cite this Article: Chandra Pal Singh and Geeta Agnihotri, Finite Element Analysis of Deep Drawing Process to Investigate effect of Friction, International Journal of Mechanical Engineering and Technology 8(10), 2017, pp. 759–767. http://iaeme.com/Home/issue/IJMET?Volume=8&Issue=10 1. INTRODUCTION Browne et.al.[1] studied the effects of punch and die geometry, blank- holding pressure and punch speed for least variation in wall thickness distribution. Fereshteh et.al. [2] investigated required forming load at various friction values. Kakandikar et. al. [3] carried optimization studies using genetic algorithm to optimize the process and geometry parameters for mild
FINITE ELEMENT ANALYSIS OF DEEP DRAWING PROCESS TO INVESTIGATE EFFECT OF FRICTION
Jun 04, 2023
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