Simulation of Air Pad Shape on Pressure Distribution in Air Gap of Air Table in Ultra Precision Machine Tools
Journal: International Journal of Advanced Design and Manufacturing Technology (Vol.7, No. 1)Publication Date: 2014-09-16
Authors : M. Akhondzadeh; M. Vahdati;
Page : 27-33
Keywords : Air Bearing; Air Table; Air Pad; Pressure Distribution; Simulation; Ultra Precision Machine;
Abstract
Air pads are vastly applicable in ultra-precision machines. Spindle and table are the two main components of these machines which get advantages of such systems. The performance and efficiency of air pads have big influence on the whole machine quality. Parameters affecting pressure distribution of air tables may be considered as, 1) air compressing method, 2) air nozzle diameter, shape, and size, 3) number of air pads, and 4) air gap thickness. In this study, effects of air pad shape on pressure distribution in air gap have been investigated using ANSYS. In this simulation, FOTRAN environment have been employed. Investigated shapes for air pads are triangle, rectangle, pentagon, hexagon, ellipse and circle. Pressure distribution-distance from orifice have been plotted for each air pad shape. The results indicate that the rectangle air pad has the best pressure distribution.
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Last modified: 2014-09-16 18:58:29