High Speed Milling Stability of Cutter with Indexable Inserts

Min Li Zheng; Bin Jiang; W. Zhang; J. Liu

doi:10.4028/www.scientific.net/KEM.392-394.560

Paper Titles

Preparations and Properties of Solid Lubricants Coating on High-Speed Steel Tools
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Study on a Knowledge-Reuse-Based Rapid Product Design Process
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Influence of the Air-Gap Changes on the Performance of Linear Induction Motor
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The Design and Simulation of Micro Gas Journal Bearing for Micro Gas Turbine Engine
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High Speed Milling Stability of Cutter with Indexable Inserts
p.560

Numerical Simulation of Liquid-Solid Two-Phase Flows on Internal and Outside Flow Field in High Pressure Abrasive Water Jet Cutting Nozzle
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Research for Disposable Design Concept and its Method
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Stochastic Fractal Modeling and Process Planning for Machining Using Two-Dimensional Iterated Function System
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Study of Double-Motor Anti-Backlash of Heavy NC Machine Tool C Axis System
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High Speed Milling Stability of Cutter with Indexable Inserts

Abstract:

Based on dynamic loads analysis for high speed milling, to investigate vibration and failure of high speed milling cutter with indexable inserts, and perform modeling for high speed milling stability based on safety. According to the theory of axiomatic design, to process decomposition of function of high speed milling cutter with indexable inserts, found the design matrix of cutter, and propose the design method of cutter based on high speed milling stability, high speed face milling cutter for machining aluminum alloy was developed. The results indicate that an uneven distribution of cutter teeth and higher precision of dynamic balance can depress vibration of cutter, the method of axiomatic design based on stability improves efficiently dynamic cutting stability, the safety and concurrent design cycle of high speed milling cutter.