Add to ORKGThe main aim of this study was to investigate the critical conditions for the formation of ultrafine grain structures using hot torsion and wedge rolling techniques. In addition, the effect of thermomechanical parameters and steel composition on the critical conditions for ultrafine grain structure formation has been systematically evaluated
A plain carbon steel was deformed using a hot torsion deformation simulator. A schedule known to pro...
Hot torsion testing of a C–Mn–V steel was used to study the evolution of ultrafine...
Ultrafine ferrite grain sizes were produced in a 0.11C-1.6Mn-0.2Si steel by torsion testing isotherm...
The formation of ultrafine ferrite by strain induced transformation is assessed using rolling and ho...
The formation of ultrafine grained steels is an area of intense research around the World. There are...
A C–Mn–V steel was used to study ultrafine ferrite formation (1–3 μm) through d...
Ultrafine ferrite can be formed in steels through relatively simple thermomechanical processes. The ...
An investigation into the production of ultrafine (1 µm) equiaxed ferrite (UFF) grains in low-...
The refinement of ferrite grain size is the most generally accepted approach to simultaneously impro...
Ferrite grain refinement is one of the best methods to improve the mechanical properties of low car...
Abstract In this thesis, methods to process ultrafine ferritic (UFF) structures in steels, i.e. grai...
A novel single-pass hot strip rolling process has been developed in which ultra-fine (<2 μm) f...
Two novel two-step thermomechanical routes were developed to produce ultrafine-grained ferrite micro...
In the last years, ultrafine grained materials have attracted considerable research interest because...
Ultrafine grain sizes were produced using hot torsion testing of a 0.11C-1.68Mn-0.20Si (wt-%) steel,...
A plain carbon steel was deformed using a hot torsion deformation simulator. A schedule known to pro...
Hot torsion testing of a C–Mn–V steel was used to study the evolution of ultrafine...
Ultrafine ferrite grain sizes were produced in a 0.11C-1.6Mn-0.2Si steel by torsion testing isotherm...
The formation of ultrafine ferrite by strain induced transformation is assessed using rolling and ho...
The formation of ultrafine grained steels is an area of intense research around the World. There are...
A C–Mn–V steel was used to study ultrafine ferrite formation (1–3 μm) through d...
Ultrafine ferrite can be formed in steels through relatively simple thermomechanical processes. The ...
An investigation into the production of ultrafine (1 µm) equiaxed ferrite (UFF) grains in low-...
The refinement of ferrite grain size is the most generally accepted approach to simultaneously impro...
Ferrite grain refinement is one of the best methods to improve the mechanical properties of low car...
Abstract In this thesis, methods to process ultrafine ferritic (UFF) structures in steels, i.e. grai...
A novel single-pass hot strip rolling process has been developed in which ultra-fine (<2 μm) f...
Two novel two-step thermomechanical routes were developed to produce ultrafine-grained ferrite micro...
In the last years, ultrafine grained materials have attracted considerable research interest because...
Ultrafine grain sizes were produced using hot torsion testing of a 0.11C-1.68Mn-0.20Si (wt-%) steel,...
A plain carbon steel was deformed using a hot torsion deformation simulator. A schedule known to pro...
Hot torsion testing of a C–Mn–V steel was used to study the evolution of ultrafine...
Ultrafine ferrite grain sizes were produced in a 0.11C-1.6Mn-0.2Si steel by torsion testing isotherm...