Abstract Controlling the hot rolling process requires a deep understanding of the underlying metallurgical phenomena. Quantitative methods are of paramount importance for achieving the capability of controlling microstructural evolution. Since the final mechanical properties of steel result from microstructural evolution in the whole process, analysis of the microstructure provides an important input for numerical simulations that can be used for tailoring the mechanical properties of steel. The evolution of grain size distribution of a low-carbon CrNiMnB ultrahigh-steel in austenitic state is studied in hot forming and annealing using experimental data obtained with the Gleeble 3800 thermo-mechanical simulator. A general method is describe...
Controlling the grain size is an essential issue in the metal plastic working processes. Based on th...
International audienceStudying and predicting microstructure evolutions by recrystallization of poly...
This paper deals with the evolution of microstructure through the thickness of the strip in the hot ...
In this paper, the local distribution of austenite grain size (AGS) was experimentally determined by...
The microstructure of the low alloyed steels after hot plastic deformation and high temperature anne...
Abstract The growth of prior austenite grains (PAG) of low alloyed martensitic steel is proven to b...
The aims of this work are to assess the kinetics of austenite grain growth, and to estimate the thr...
The design of modern construction materials with heterogeneous microstructures requires a numerical ...
The study of hot band microstructure and texture during the hot rolling process is of great importan...
Modelling and simulation of recrystallization, grain growth, and related phenomena are important too...
The relationships between initial microstructures, process parameters, and grain evolutions in isoth...
In this study, the austenite grain size (AGS) for hot bar rolling of AISI4135 steel was predicted ba...
Abstract. An integral mathematical physically based model is developed for prediction of the microst...
A computational modeling for predicting microstructure evolutions and mechanical properties of steel...
In this study, kinetics of the static (SRX) and metadynamic recrystallization (MDRX) of AISI4135 ste...
Controlling the grain size is an essential issue in the metal plastic working processes. Based on th...
International audienceStudying and predicting microstructure evolutions by recrystallization of poly...
This paper deals with the evolution of microstructure through the thickness of the strip in the hot ...
In this paper, the local distribution of austenite grain size (AGS) was experimentally determined by...
The microstructure of the low alloyed steels after hot plastic deformation and high temperature anne...
Abstract The growth of prior austenite grains (PAG) of low alloyed martensitic steel is proven to b...
The aims of this work are to assess the kinetics of austenite grain growth, and to estimate the thr...
The design of modern construction materials with heterogeneous microstructures requires a numerical ...
The study of hot band microstructure and texture during the hot rolling process is of great importan...
Modelling and simulation of recrystallization, grain growth, and related phenomena are important too...
The relationships between initial microstructures, process parameters, and grain evolutions in isoth...
In this study, the austenite grain size (AGS) for hot bar rolling of AISI4135 steel was predicted ba...
Abstract. An integral mathematical physically based model is developed for prediction of the microst...
A computational modeling for predicting microstructure evolutions and mechanical properties of steel...
In this study, kinetics of the static (SRX) and metadynamic recrystallization (MDRX) of AISI4135 ste...
Controlling the grain size is an essential issue in the metal plastic working processes. Based on th...
International audienceStudying and predicting microstructure evolutions by recrystallization of poly...
This paper deals with the evolution of microstructure through the thickness of the strip in the hot ...