Study of the Effect of Thermomechanical Processing on Grain Refinement in HSLA Steels

Krzysztof Muszka; Janusz Majta; Dominik Dziedzic

doi:10.4028/www.scientific.net/MSF.762.146

Paper Titles

Modelling of Strain Rate and Temperature Dependent Flow Stresses of Supercooled Austenite for AISI 4140
p.122

Recrystallization Behavior of 0.11% Ti-Added Complex Phase Steel during Hot Compression
p.128

Characterization and Modeling of Softening Kinetics during Hot Deformation in Modern Steels
p.134

Softening Kinetics in High Al-Nb Microalloyed Steels
p.140

Study of the Effect of Thermomechanical Processing on Grain Refinement in HSLA Steels
p.146

Development of Nano-Scale Precipitation Strengthened Hot-Rolled 590MPa Grade Wheel Steel
p.152

Microstructure and Mechanical Properties of X80 Induction Heating Bends
p.158

Effect of Reheat Conditions on Microstructure Evolution and Precipitation Behavior in High Strength Linepipe Steel
p.165

Effect of Different Cooling Paths on the Microstructure and Properties of a Plain Carbon Steel
p.171

HomeMaterials Science ForumMaterials Science Forum Vol. 762Study of the Effect of Thermomechanical Processing...

Study of the Effect of Thermomechanical Processing on Grain Refinement in HSLA Steels

Abstract:

The present study highlights the approach to multiscale analysis of the grain refinement during thermomechanical processing of microalloyed steels. HSLA steels for pipe-line use are introduced in which strain-induced precipitation and strain-induced transformations are controlled to produce ultra-fine grained microstructures. Multiscale modeling combining Digital Material Representation and Crystal Plasticity enables to gain a better fundamental understanding of mechanical response and microstructure evolution of precipitation strengthened austenite and ferrite of three microalloyed steel grades. The opportunities for the development of new thermomechanical processing schedules, focused on the grain refinement, are enhanced and the proposed models identifications procedure on the basis of the torsion tests at various forming conditions are presented and discussed. In the pipe-line grade steels, the combination of microalloying elements, accelerated cooling and transformation temperature, has led to much higher grain refinements and increased amount of bainitic ferrite microstructures than in the standard thermomechanical processing. Sensitivity analysis of studied microalloyed steel grades in the light of the discussed problems using microstructural analysis of obtained microstructures was also performed. Finally, the main challenges related to the multiscale modeling of proposed ideas are addressed.