Grinding Spindle Improvement Based on Structure Optimal Design

Pei Fu; Jiang Huang; Ming Zhong Jin; Min Qing Gong; Xue Ni Pan

doi:10.4028/www.scientific.net/AMM.454.118

Paper Titles

Study on Error Analysis of On-Line Measurement System Based Numerical Control Process
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Fluorescent Sensors for Mg(II) Based on Phthalocyanine PcOC8
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Experimental Study on the Parameters of Service Life of Rolling-Bearings
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Study of the Kinematics for the Serial Robot on the Controllable Polishing Force
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Grinding Spindle Improvement Based on Structure Optimal Design
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Research of Brittle Shear Failure Strength of Rock Materials
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Elasto-Plastic Analysis of Soil around Tubular Pile Based on Triple Shear Unified Yield Criterion
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Numerical Analysis of Stratified Rock Slope Stability Based on 3DEC
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An Analysis on Structure Type Selection and Optimization of the Formtraveller for Cantilever Construction
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HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vol. 454Grinding Spindle Improvement Based on Structure...

Grinding Spindle Improvement Based on Structure Optimal Design

Abstract:

For the structure optimization design of grinder Cui Zhong etc. [1,2] studied problems such like to select sample points which are used to structure the approximate model, to apply optimal Latin hypercube principle in the experimental design, and to take advantage of radical basis function. To minimize error they optimized models by using mathematical programming also. In our paper here using the methods in [1, we construct a model using CAD for grinding components, on the basis of optimum structural design procedure we deal with grinding spindle with structural analysis, sampling point selection, and optimum design, such that we greatly improve the design of high-speed grinding spindle on the wheel frame of CNC8312A[.