A Realistic Friction Model for Computer Simulation of Sheet Metal Forming Processes-Reference-Cited by-同舟云学术

A Realistic Friction Model for Computer Simulation of Sheet Metal Forming Processes

Published:1995-05-01 Issue:2 Volume:117 Page:202-209
ISSN:0022-0817
Container-title:Journal of Engineering for Industry
language:en
Short-container-title:

Author:

Wilson W. R. D.¹,Hsu T-C.¹,Huang X-B.¹

Affiliation:

1. Steel Resource Center, Northwestern University, Evanston, IL 60208

Abstract

A realistic model for friction in lubricated sheet-metal forming which takes account of the different lubrication regimes which may occur at the sheet/tooling interface is developed. Friction is expressed in terms of internal interface variables (mean lubricant film thickness, sheet roughness and tooling roughness) in addition to the more traditional external variables (interface pressure, sliding speed and strain rate). The new model has been coupled to an existing finite element membrane analysis of axisymmetric stretch forming. Numerical results using the coupled codes showed excellent agreement with measured strain distributions over a range of operating conditions. Computational times with the refined friction model were typically increased by about 10 percent compared to those with a simple Amontons-Coulomb constant friction coefficient model.

Publisher

ASME International

Subject

General Medicine

Link

http://asmedigitalcollection.asme.org/manufacturingscience/article-pdf/117/2/202/6494051/202_1.pdf

Reference26 articles.

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2. Chen K. K. , and SunD. C., 1986, “Hydrodynamic Lubrication in Hemispherical Punch Stretch Forming,” ASME Journal of Applied Mechanics, Vol. 108, pp. 440–449.

3. Christensen H. , 1970, “Stochastic Models for Hydrodynamic Lubrication of Rough Surfaces,” Proc. I. Mech E., Vol. 104, Pt. 1, pp. 1013–1022.

4. Hector, L. G., and Wilson, W. R. D., 1985, “Optical Lubricant Film Thickness Measurements in Stretch Forming,” Proc. NAMRC, XIII, (SME), pp. 99–102.

5. Hector L. G. , and WilsonW. R. D., 1986, “Optical Interferometry Exposes Lubricant Behavior,” Res. Dev., Vol. 28, pp. 72–76.

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