IJBTT

Effect of Stiffening Ribs on the Dynamic and Static Stiffness of a Computerized Numerically Controlled Machine Tool Column

	International Journal of Engineering Trends and Technology (IJETT)
	© 2015 by IJETT Journal
	Volume-30 Number-5
	Year of Publication : 2015
	Authors : Arun Kumar Arya, Dhananjay Gupta
	DOI :  10.14445/22315381/IJETT-V30P243

Citation 

Arun Kumar Arya, Dhananjay Gupta"Effect of Stiffening Ribs on the Dynamic and Static Stiffness of a Computerized Numerically Controlled Machine Tool Column", International Journal of Engineering Trends and Technology (IJETT), V30(5),228-234 December 2015. ISSN:2231-5381. www.ijettjournal.org. published by seventh sense research group

Abstract
Column stiffness affects the dimensional accuracy of the work-pieces machined on a CNC machine tool. The static stiffness is characterized by column displacement whereas the dynamic stiffness is a function of the natural frequency of the column. A computational procedure based on ANSYS, a finite element package, for the static and dynamic analysis of a CNC machine tool column was applied [1, 2]. Derived parameter method [1] developed by the authors was used for mathematical modelling. Practically, for a column of high stiffness, the displacement should be as low as possible and the natural frequency should be far away from the operating speed zone of the machine tool. Besides, for a given displacement d, the material volume requirement, v for an optimal column must be minimum. Put together, the product P of displacement d and material volume v must be minimized in order to optimize a column. Hence, the minimum values of Product, P (d*v) as well as displacement, d have been used as the optimization criteria for column design. For dynamic stiffness, it is aimed to achieve the highest possible natural frequency. The impact of the number and cross-sectional area of horizontal as well as vertical stiffening ribs on column displacement and its natural frequency was studied. The results obtained and the conclusions derived have been reported in the paper.

 References

[1] Manu Gupta and P. D. Murarka, “Optimization criteria for the design of a computerized numerically controlled machine column using finite element method”, International Journal of Mechanical Engineering, Vol. 41, Issue 2, pp. 1180-1184, September, 2013.
[2] Arun Kumar Arya, Manu Gupta and Dhananjay Gupta, “Dynamic Analysis of a Computerized Numerically Controlled Machine Tool Column”, International Journal of Mechanical Engineering, Vol. 42, Issue 2, pp. 1263-1268, December, 2014.
[3] Dezhong Kong, JingfengShen&Baohui Li; “Finite-element Analysis and Optimization for the Column of Numerically Controlled Triaxial Deep Hole Drilling Machine”, Mechanical Engineering Research; Vol. 2, No. 1; 2012.
[4] Yuhong Zhang, Wenhua Ye, Sheng Leng&Wenyong Shan; “Bionic Design for Column of Gantry Machining Center Using Honeycomb Structures”, Proceedings of the World Congress on Engineering 2012,Vol III, WCE 2012, July 4 - 6, 2012, London, U.K.
[5] L. Zhao, W.Y. Chen & J.F. Ma, “Lightweight Design of High-speed Working Table Based on Structural Bionic”, Modular Machine Tool & Automatic Manufacturing Technique,no.1,pp.1-4, 2008.
[6] Wedad I. Alazzawy, “Static and Dynamic Analysis of Stiffened Plate Used in Machine Tool Column”, Journal of Engineering, Vol. 14, No 4, December 2008.
[7] Hedi Yangui et al, “Influence of Cutting and Geometrical Parameters on the Cutting Force in Milling”, Engineering, Scientific Research, 2010, 2, 751-761.
[8] Joshi, A.M. et al, “Finite Element Analysis of CNC Lathe Headstock”, Journal of Information, Knowledge and Research in Mechanical Engineering, Vol. 2, No. 1, Page 135, Oct. 2012.
[9] Edmund Isakov, “Understanding tangential cutting force when milling”, Cutting Tool Engineering Plus, May 2012 / Volume 64 / Issue 5.
[10] Georgi STOYCHEV, “FE Analysis of Gray Cast Iron Structural Elements”, Machine Design, May 10, 2010.
[11] Release 11.0 Documentation for ANSYS, www.ansys.com

Keywords
Displacement, finite element, column, stiffness, ribs.