Explicit Formula for Estimating Aerodynamic Drag on Trains Running in Evacuated Tube Transportation
p.156
p.156
Applications of Multiple Objective Genetic Algorithms in the Optimization Design of Tracked Self-Moving Power’s Layout
p.161
p.161
Mixing Enhancement of Two Gases in a Microchannel Using DSMC
p.166
p.166
Predictive Modeling of Turning Operations Using Response Surface Methodology
p.170
p.170
Modeling of Stresses and Temperature in Turning Using Finite Element Method
p.174
p.174
Steady Streaming due to a Sphere in Incompressible Fluid
p.178
p.178
Influence of Bolt Joint on Dynamic Characteristic of Linear Rolling Guide
p.182
p.182
Investigation on Aerodynamic Drag Reduction of Commercial Truck Based on External Styling of Cab
p.186
p.186
Study on Automobile Door Closure Sound Quality Objective Evaluation
p.192
p.192
Modeling of Stresses and Temperature in Turning Using Finite Element Method
Abstract:
This paper focuses on finite element modeling of orthogonal cutting process of AISI 1045 steel using Modified Johnson Cook (MJC) as constitutive material flow model under various machining parameters. Finite element solutions of cutting forces, effective stresses and temperature are obtained for a wide range of cutting speeds and feeds. The effect of feed and cutting speed on cutting forces, effective stresses and temperature has been studied over a wide range of values. Percentage variation of each is also studied to predict co-relation with the different machining parameters.
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Info:
Periodical:
Applied Mechanics and Materials (Volume 307)
Pages:
174-177
Citation:
Online since:
February 2013
Authors:
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