Add to ORKGIn the present study, the effect of nominal equivalent strain (between 0 and 1.2), deformation temperature (790– 750°C) and carbon content (0.06 – 0.35%C) was investigated on ferrite grain refinement through dynamic strain induced transformation (DSIT) in plain carbon steels in single pass rolling. The microstructural evolution of the transformation of austenite to ferrite has been evaluated through the thickness of the strip. The results showed a number of important microstructural features as a function of strain, which could be classified into three regions; no DSIT region, DSIT region, and ultrafine ferrite (UFF) grain region. Hence, two critical strains; dynamic strain induced transformation (εC, DSIT) and ultra...
The goal in the heat treatment or thermomechanical processing of steel is to improve the mechanical ...
An investigation into the production of ultrafine (1 µm) equiaxed ferrite (UFF) grains in low-...
Ultrafine grained structure formed dynamically through a severe warm deformation in the temperature ...
In the present study, wedge-shaped samples were used to determine the effect of nominal equivalent s...
The microstructural evolutions during compressions at different temperatures and strains were invest...
In the present study, wedge-shape samples were used to study the effect of strain induced transforma...
Abstract. By application of thermomechanical controlled rolling and accelerated cooling, the ferrite...
The refinement of ferrite grain size is the most generally accepted approach to simultaneously impro...
The present work deals with grain refinement of medium carbon steel, having different initial micros...
Hot torsion testing of a C–Mn–V steel was used to study the evolution of ultrafine...
A novel approach was used to produce an ultrafine grain structure in low carbon steels with a wide r...
For low carbon steels, thermomechanical processing in the intercritical (austenite\u2013ferrite) tem...
A C–Mn–V steel was used to study ultrafine ferrite formation (1–3 μm) through d...
The formation of ultrafine ferrite by strain induced transformation is assessed using rolling and ho...
There is now considerable interest in the development of ultrafine grained steels with an average gr...
The goal in the heat treatment or thermomechanical processing of steel is to improve the mechanical ...
An investigation into the production of ultrafine (1 µm) equiaxed ferrite (UFF) grains in low-...
Ultrafine grained structure formed dynamically through a severe warm deformation in the temperature ...
In the present study, wedge-shaped samples were used to determine the effect of nominal equivalent s...
The microstructural evolutions during compressions at different temperatures and strains were invest...
In the present study, wedge-shape samples were used to study the effect of strain induced transforma...
Abstract. By application of thermomechanical controlled rolling and accelerated cooling, the ferrite...
The refinement of ferrite grain size is the most generally accepted approach to simultaneously impro...
The present work deals with grain refinement of medium carbon steel, having different initial micros...
Hot torsion testing of a C–Mn–V steel was used to study the evolution of ultrafine...
A novel approach was used to produce an ultrafine grain structure in low carbon steels with a wide r...
For low carbon steels, thermomechanical processing in the intercritical (austenite\u2013ferrite) tem...
A C–Mn–V steel was used to study ultrafine ferrite formation (1–3 μm) through d...
The formation of ultrafine ferrite by strain induced transformation is assessed using rolling and ho...
There is now considerable interest in the development of ultrafine grained steels with an average gr...
The goal in the heat treatment or thermomechanical processing of steel is to improve the mechanical ...
An investigation into the production of ultrafine (1 µm) equiaxed ferrite (UFF) grains in low-...
Ultrafine grained structure formed dynamically through a severe warm deformation in the temperature ...