Control and Analysis of Nonlinear Error for 5-Axis Machining of Hybrid Machine Tool
p.485
p.485
Fractal Characterization and Simulation of Surface Microtopography Machined with Abrasive Jet Precision Finishing with Grinding Wheel as Restraint
p.490
p.490
Studying the Expansion Uniformity of Intravascular Stents by the Effect of Laser Cutting Error
p.495
p.495
Gap Phenomena of Ultrasonic Vibration Assisted Electrical Discharge Machining in Gas
p.500
p.500
A Micro Milling Model Considering Metal Phases and Minimum Chip Thickness
p.505
p.505
Simulation of Surface Topography in Ball-End Milling Considering the Tool Deflection and Runout
p.510
p.510
Tool Cutting Force Modeling in High Speed Milling Using PSO-BP Neural Network
p.515
p.515
Investigation on Simulation for Grind-Hardening Temperature Field of Non-Quenched and Tempered Steel
p.520
p.520
Study on the Temperature Field of Cemented Carbide Substrate in Miniature EACVD System
p.525
p.525
A Micro Milling Model Considering Metal Phases and Minimum Chip Thickness
Abstract:
In this paper, a micro milling model is brought forward. The influences of different metal phases and the minimum chip thickness are considered in the model. The cutting forces and the surface generation in the micro milling process are predicted. Through the experiment validation, the results correlate to the model very well.
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Info:
Periodical:
Key Engineering Materials (Volumes 375-376)
Pages:
505-509
Citation:
Online since:
March 2008
Authors:
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