The University of Queensland Homepage Link to my.UQUQ HomepageSearch UQFind all Contacts at UQStudy Options at UQNews at UQEvents at UQUQ MapsUQ Library
Go to advanced search page

A method of approximate tool wear analysis in cold roll forming

Galakhar, A. S., Meehan, P. A., Daniel, W. J. T. and Ding, S. C. (2007). A method of approximate tool wear analysis in cold roll forming. In: Veidt, Martin, Albermani, Faris, Daniel, Bill, Griffiths, John, Hargreaves, Doug, McAree, Ross, Meehan, Paul and Tan, Andy, Proceedings of the 5th Australasian Congress on Applied Mechanics (ACAM 2007). 5th Australasian Congress on Applied Mechanics (ACAM 2007), Brisbane, Australia, (703-708). 10-12 December, 2007.

 
Attached Files (Some files may be inaccessible until you login with your UQ eSpace credentials)
Name Description MIMEType Size Downloads
B6.5.pdf   Session B6.5: cold roll forming: Galakhar paper application/pdf 979.62KB 87

Author(s) Galakhar, A. S.
Meehan, P. A.
Daniel, W. J. T.
Ding, S. C.
Title of paper A method of approximate tool wear analysis in cold roll forming
Conference name 5th Australasian Congress on Applied Mechanics (ACAM 2007)
Conference location Brisbane, Australia
Conference dates 10-12 December, 2007
Proceedings title Proceedings of the 5th Australasian Congress on Applied Mechanics (ACAM 2007)
Editor(s) Veidt, Martin
Albermani, Faris
Daniel, Bill
Griffiths, John
Hargreaves, Doug
McAree, Ross
Meehan, Paul
Tan, Andy
Place published Brisbane
Publisher Engineers Australia
Publication date 2007
Year available 2008
Volume number 1
ISBN 0 8582 5862 5
Start page 703
End page 708
Total pages 6
Collection year 2007
Language eng
Abstract/Summary A method of approximate tool wear evaluation is proposed for cold roll forming (CRF). The method uses simple assumptions for approximate tool wear analysis and allows estimation of roll profile change caused by wear. Boundary conditions are obtained from the model based on a new relaxation method. The strip material obeys the rigid-perfect plastic model. A roll-strip sliding velocity distribution is calculated from roll geometry. A roll-strip vertical contact pressure component is assumed to be constant within the contact area. The method is a first step in the development of a reliable approach to tool wear prediction in CRF.
Subjects 290501 Mechanical Engineering
780102 Physical sciences
E1
Keyword(s) approximate wear analysis
cold roll forming
tool wear
 
Versions
Version Filter Type
Access Statistics: 166 Abstract Views, 87 File Downloads Detailed Statistics
Created: Thu, 13 Mar 2008, 12:33:39 EST by Laura McTaggart on behalf of School of Engineering. Detailed History