Coupled Thermo-Mechanical Analysis of Process-Integrated Powder Coating by Means of Hot Rolling

Reza Kebriaei; Jan Frischkorn; Stefanie Reese; Heiko Moll; Werner Theisen; Tobias Husmann; Horst Meier

doi:10.4028/www.scientific.net/KEM.504-506.193

Paper Titles

Microstructural Behaviour in Rotary Forging of Inconel 718
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Compound Forging of Hybrid Powder-Solid-Parts Made of Steel and Aluminum
p.175

Hydroforging of Thick-Walled Hollow Aluminum Profiles
p.181

Evolution of Microstructure during the Shape Rolling Modeled by Cellular Automata
p.187

Coupled Thermo-Mechanical Analysis of Process-Integrated Powder Coating by Means of Hot Rolling
p.193

Scale Behaviour and Deformation Properties of Oxide Scale during Hot Rolling of Steel
p.199

Cross Wedge Rolling of Preforms for Crankshafts
p.205

A Simple Discrete Method for the Simulation of the Preforming of Woven Fabric Reinforcement
p.213

Analysis of Non-Crimp Fabric Composite Reinforcements Forming
p.219

HomeKey Engineering MaterialsKey Engineering Materials Vols. 504-506Coupled Thermo-Mechanical Analysis of...

Coupled Thermo-Mechanical Analysis of Process-Integrated Powder Coating by Means of Hot Rolling

Abstract:

In this paper, a new hybrid production technique is presented. It exploits the advantage of high temperatures and high forces in the ring rolling process. This manufacturing technique is not only suitable to increase the ring’s diameter but also to apply and compact powder metallurgical multi-functional coatings onto solid substrate rings with the same process. In order to design this new process parameterized 2D and 3D FE models are created in ABAQUS/EXPLICIT on the basis of a viscoplastic material model formulation. The control capability of the conventional control mechanisms are based on the assumption of volume consistency. However, this assumption is not well applicable for a ring furnished by multi-functional surfaces with non-isochoric plastic deformation behavior. Therefore, this paper deals with the implementation of a new control mechanism. Finally the paper is concluded with the integration of heat treatment of the rolled ring into the subsequent cooling process.

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Periodical:

Key Engineering Materials (Volumes 504-506)

Pages:

193-198

DOI:

https://doi.org/10.4028/www.scientific.net/KEM.504-506.193

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Online since:

February 2012

Authors:

Reza Kebriaei, Jan Frischkorn, Stefanie Reese, Heiko Moll, Werner Theisen, Tobias Husmann, Horst Meier

Keywords:

Finite Element (FE) Simulation, Heat Treatment, Phase Transformation, Powder Compaction, Residual Porosity

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References

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