Hysteretic Nonlinear Characteristics and Stochastic Bifurcation of Cantilevered Piezoelectric Energy Harvester
p.348
p.348
Optimal Yield Rate in ACF Cutting Process of TFT-LCD Module Using Orthogonal Particle Swarm Optimization
p.353
p.353
An Optimal Design for New Electromagnetic Valve in Camless Engines
p.360
p.360
The Dynamic Analysis and Simulation of Electric Scooter
p.365
p.365
Study on Bevel Gear Worm Forging by Finite Element Analysis
p.369
p.369
The Characteristic Analysis of Interrupted Flow Pulsation on Ultrafiltration System
p.373
p.373
Pressure Distribution in the Air Film and the Porous Conveyor Air Bearing
p.380
p.380
Dynamics of a Quadruped Walking Machine
p.385
p.385
Magnetostatic Field Analysis of Disk-Type Permanent-Magnet Motors
p.390
p.390
Study on Bevel Gear Worm Forging by Finite Element Analysis
Abstract:
This study applies the finite element method (FEM) to predict maximum forging load and effective strain in bevel gear forging. Maximum forging load and effective strain are determined for different process parameters, such as modules, number of teeth, and die temperature of the bevel gear forging, using the FEM. Finally, the prediction of the power requirement for the bevel gear warm forging is determined.
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Periodical:
Applied Mechanics and Materials (Volumes 479-480)
Pages:
369-372
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Online since:
December 2013
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© 2014 Trans Tech Publications Ltd. All Rights Reserved
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