Preface, Committees and Sponsors
Dynamic Transformation during Simulated Hot Rolling
p.1
p.1
Multiple, Simultaneous, Martensitic Transformations: Implications on Transformation Texture Intensities
p.9
p.9
Atomic Scale Investigation of Solutes and Precipitates in High Strength Steels
p.14
p.14
Numerical Simulation of Hot Rolling
p.22
p.22
Formation of an Ultrafine-Grained Austenite-Containing Microstructure from a Cold-Rolled Medium-Manganese Steel Processed Using Intercritical Annealing
p.31
p.31
The Thermomechanical Controlled Processing of High-Strength Steel Plate: A New View of Toughness Based on Modern Metallography
p.38
p.38
Comparison of Material Properties and Creep Behavior of 20MnCr5 and S275JR Steels
p.47
p.47
Control of Microstructure by MaxStrain Device
p.55
p.55
Numerical Simulation of Hot Rolling
Abstract:
In the present paper actual demands for modern simulation strategies for hot rolling are discussed. The main focus of the discussion is on material flow simulation for hot rolling and the computation of material inhomogeneities. An overview on simulation techniques for material flow and microstructure evolution is given. Approaches for new simulation strategies which give fast results with a high modeling depth are discussed. As a result of actual investigations a fast model for material flow is presented.
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Info:
Periodical:
Materials Science Forum (Volume 762)
Pages:
22-30
Citation:
Online since:
July 2013
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