Finite Element Analysis for Deformation of Toolholder/Spindle Interface System at High Rotation Speed

D.L. Wang; T.H. Li; D.C. Kang

doi:10.4028/www.scientific.net/MSF.471-472.649

Paper Titles

Overview on Measuring Methods of Bond Strength of Cladding Material
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Feed Rate and Depth of Cut Influence on Cutting Forces in Diamond Turning Aluminium Alloy
p.634

A Study on Vacuum Brazing Procedure of Plate Heat Exchanger
p.640

Study on Hole Making in EACVD Thick Diamond Film
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Finite Element Analysis for Deformation of Toolholder/Spindle Interface System at High Rotation Speed
p.649

Application of Wavelet Digital Filter of Fourier Transform Profilometry in 3-D Measurement
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Finite Element Analysis of Effects of Ball Burnishing Parameters on Residual Stresses
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Structure Dynamic Modification and Optimization for High-Speed Face Milling Cutter
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Application of the Hilbert-Huang Transform to Pick up Surface Roughness
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HomeMaterials Science ForumMaterials Science Forum Vols. 471-472Finite Element Analysis for Deformation of...

Finite Element Analysis for Deformation of Toolholder/Spindle Interface System at High Rotation Speed

Abstract:

With a significant progress achieved both in new kind of cutting tools and in machine tool design at high cutting speed, one of the weakest parts in the machining system is the toolholder/spindle interface system. In this paper the displacement of the 7/24 tapered tool interface and the HSK tool interface at high rotation speed is analyzed by means of the finite element method. The effects of the centrifugal force on the characteristics of the joints are investigated.