Experimental Investigation on High-Speed Milling of Aluminum Alloys

Yong Liu; Li Tang Zhang; Zhi Hong Xu

doi:10.4028/www.scientific.net/AMR.418-420.1141

Paper Titles

Development of a Combined Shape and Gauge Control Scheme Based on Function Φ
p.1118

Characterization of Bolt Hole Residual Stresses for Assessing Structural Behavior of Truck Frame Rails
p.1124

High Efficiency Precision Surface Grinding of Fused Silica
p.1132

Measurement of Dynamic Resistance in Resistance Microwelding of Insulated Copper Wire
p.1137

Experimental Investigation on High-Speed Milling of Aluminum Alloys
p.1141

Chip Prediction in Finite Element Modeling of the Chip Formation Process during Cutting Ti-6Al-4V Alloy
p.1148

Investigation of Temperature Distribution in High-Speed End Mill Assisted by Heat Pipe Cooling
p.1154

Mechanics of Design and Model Development of CVC-Plus Roll Curve
p.1158

Study on Combined Process of Micro-EDM and Electrorheological Fluid-Assisted Polishing
p.1167

HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 418-420Experimental Investigation on High-Speed Milling...

Experimental Investigation on High-Speed Milling of Aluminum Alloys

Abstract:

High-speed milling is recognized as one of rapidly development machining methods. The article gives details of machining experiments with different aluminum alloys. Through a lot of single factor experiments and the orthogonal multi-factor experiments, and also use method of semi-artificial thermocouple. This paper mainly studies influence of surface roughness and residual stress with changed rotate speed, tooth load and radial depth of cut, and changed law of processing temperature for rotate speed. Though experiments shows that enhancing rotate speed may reduce surface roughness and residual stress within certain limits and the result of experiments is not agree with Carl Salomon’s theory.

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Periodical:

Advanced Materials Research (Volumes 418-420)

Pages:

1141-1147

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.418-420.1141

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Online since:

December 2011

Authors:

Yong Liu, Li Tang Zhang, Zhi Hong Xu

Keywords:

High-Speed Milling, Milling Temperature, Orthogonal Experiment, Residual Stress, Surface Roughness (SR), Thermocouple

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References

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