Feedrate optimization and tool profile modification for the high-efficiency ball-end milling process-Reference-Cited by-同舟云学术

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Feedrate optimization and tool profile modification for the high-efficiency ball-end milling process

Published:2005-07 Issue:9 Volume:45 Page:1070-1076
ISSN:0890-6955
Container-title:International Journal of Machine Tools and Manufacture
language:en
Short-container-title:International Journal of Machine Tools and Manufacture

Author:

By Chen Jenq-Shyong,Huang Yung-Kuo,Chen Mao-Son

Publisher

Elsevier BV

Subject

Industrial and Manufacturing Engineering,Mechanical Engineering

Reference16 articles.

1. Feed rate optimization based on cutting force calculations in 3-axis milling of dies and molds with sculptured surfaces;Yazar;International Journal of Machine Tools and Manufactures,1994

2. Optimization and dynamic adaptation of the cutter inclination during five-axis milling of sculptured surfaces;Kruth;Annals of the CIRP,1994

3. Tool path optimization for finishing milling of die and mold surfaces-software development;Bergs;Transactions of NAMRI/SME,1996

4. Efficient tool-path planning for machining free-from surfaces;Lin;Transactions of the ASME, Journal of Engineering for Industry,1996

5. Feed-rate optimization of ball-end milling considering local shape features;Chu;Annals of the CIRP,1997

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2. Investigation of the Mechanism of Cutting by the Ball End Mill Tip and Its Influences on the Surface Topography and the Cutting Force;Lecture Notes in Mechanical Engineering;2024

3. A New Approach to Investigate the Formation Mechanism of the Not Modelable Cusps in 3-Axis Ball End Milling;Proceedings of the 2nd International Conference on Innovative Materials, Manufacturing, and Advanced Technologies;2023-09-13

4. Modelling and Optimization of Cutting Strategy on Freeform Machining in Ultra-precision Raster Milling;Fly Cutting Technology for Ultra-precision Machining;2023

5. Modelling and Optimization of Cutting Strategy on Freeform Machining in Ultra-precision Raster Milling;Fly Cutting Technology for Ultra-precision Machining;2023

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