Enhancing Deep Drawing Processes by Using a Thermomechanical Tool Design
p.595
p.595
Deep Drawing Process Design: A Multi Objective Optimization Approach
p.601
p.601
Bendability of Ultra-High-Strength Steel
p.611
p.611
Springback Compensation by Superposition of Stress in Air Bending
p.621
p.621
Numerical Prediction of Residual Stresses in Laser Bending of Stainless Steel Sheet Metals
p.629
p.629
Prediction of Roll Profile Wear in the Cold Roll Forming Process
p.643
p.643
UHS Steel Formability in Flexible Roll Forming
p.661
p.661
Effect of Coiling Temperature on the Formation and Pickling Behaviour of Tertiary Scale on Hot-Rolled Carbon Steel Strip
p.669
p.669
Obtainable Accuracies and Compensation Strategies for Robot Supported SPIF
p.679
p.679
Prediction of Roll Profile Wear in the Cold Roll Forming Process
Abstract:
This paper presents a model for prediction of forming roll profile wear during the cold roll forming process. The method is based on contact pressure distribution, geometrical description of the initial forming roll profile and NURBS representation of the contact area.
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Info:
Periodical:
Key Engineering Materials (Volumes 410-411)
Pages:
643-660
Citation:
Online since:
March 2009
Keywords:
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