FEM Study On The Effect of The Tool Geometry On The Machining Aspects (Turning) of Steel Alloy
FEM Study On The Effect of The Tool Geometry On The Machining Aspects (Turning) of Steel Alloy
FEM Study On The Effect of The Tool Geometry On The Machining Aspects (Turning) of Steel Alloy
FEM study on the effect of the tool geometry on the machining aspects
(Turning) of steel alloy
Under the supervision of,
Dr.G.SRINIVASU,
Assistant professor,
Mechanical Engineering,
presented by,
D.ARAVIND REDDY-12119018
DUKKA DINESH-12119024
N.V.CHAITANYA MANOHAR-12119047
P.MANOJ KUMAR REDDY-12119057
INTRODUCTION
Figure-1
(Turning process)
diagram)
Figure-2
(Merchant circle
ABOUT DEFORM 3D
DEFORM is a Finite Element Method (FEM) based process
simulation system designed to analyse various forming and heat
treatment processes used by metal forming and related industries.
Unlike general purpose FEM codes, DEFORM is tailored for
deformation modelling.
LITERATURE REVIEW
PROBLEM
IDENTIFICATION
METHODOLOGY
EXPECTED
OUTCOME
REFERENCES
[1] J.H.L. Kang, K.O. Kang, S.S. Kang, Heat transfer coefficient for F.E
analysis in the warm forging process, J. Achievements Mater.
Manuf.Eng. 20 (2007) 367370.
[2] N.A. Abukhshim, P.T. Mativenga, M.A. Sheikh, Heat generation and
temperature prediction in metal cutting: a review and implications for
high speed machining, Int. J. Mach. Tools Manuf. 46 (2006) 782800.