A novel single-pass hot strip rolling process has been developed in which ultra-fine (<2 μm) ferrite grains form at the surface of hot rolled strip in two low carbon steels with average austenite grain sizes above 200 μm. Two experiments were performed on strip that had been re-heated to 1250°C for 300 s and air-cooled to the rolling temperatures. The first involved hot rolling a sample of 0.09 wt.%C–1.68Mn–0.22Si–0.27Mo steel (steel A) at 800°C, which was just above the Ar3 of this sample, while the second involved hot rolling a sample of 0.11C–1.68Mn–0.22Si steel (steel B) at 675°C, which is just below the Ar3 temperature of the sample. After air cooling, the surface regions of strip of b...
A C–Mn–V steel was used to study ultrafine ferrite formation (1–3 μm) through d...
The mechanisms leading to the alpha fibre texture development in hot rolled ferritic stainless steel...
The ferrite grain size refining is the unique mechanism for increasing both mechanical strength and ...
An investigation into the production of ultrafine (1 µm) equiaxed ferrite (UFF) grains in low-...
In the present study, wedge-shape samples were used to study the effect of strain induced transforma...
An austenitic Ni-30 wt pct Fe alloy, with a stacking-fault energy and deformation characteristics si...
The formation of ultrafine grained steels is an area of intense research around the World. There are...
Hot torsion testing of a C–Mn–V steel was used to study the evolution of ultrafine...
The formation of ultrafine ferrite by strain induced transformation is assessed using rolling and ho...
Ultrafine ferrite can be formed in steels through relatively simple thermomechanical processes. The ...
The main aim of this study was to investigate the critical conditions for the formation of ultrafine...
Ultrafine ferrite grain sizes were produced in a 0.11C-1.6Mn-0.2Si steel by torsion testing isotherm...
The refinement of ferrite grain size is the most generally accepted approach to simultaneously impro...
Abstract In this thesis, methods to process ultrafine ferritic (UFF) structures in steels, i.e. grai...
A novel approach was used to produce an ultrafine grain structure in low carbon steels with a wide r...
A C–Mn–V steel was used to study ultrafine ferrite formation (1–3 μm) through d...
The mechanisms leading to the alpha fibre texture development in hot rolled ferritic stainless steel...
The ferrite grain size refining is the unique mechanism for increasing both mechanical strength and ...
An investigation into the production of ultrafine (1 µm) equiaxed ferrite (UFF) grains in low-...
In the present study, wedge-shape samples were used to study the effect of strain induced transforma...
An austenitic Ni-30 wt pct Fe alloy, with a stacking-fault energy and deformation characteristics si...
The formation of ultrafine grained steels is an area of intense research around the World. There are...
Hot torsion testing of a C–Mn–V steel was used to study the evolution of ultrafine...
The formation of ultrafine ferrite by strain induced transformation is assessed using rolling and ho...
Ultrafine ferrite can be formed in steels through relatively simple thermomechanical processes. The ...
The main aim of this study was to investigate the critical conditions for the formation of ultrafine...
Ultrafine ferrite grain sizes were produced in a 0.11C-1.6Mn-0.2Si steel by torsion testing isotherm...
The refinement of ferrite grain size is the most generally accepted approach to simultaneously impro...
Abstract In this thesis, methods to process ultrafine ferritic (UFF) structures in steels, i.e. grai...
A novel approach was used to produce an ultrafine grain structure in low carbon steels with a wide r...
A C–Mn–V steel was used to study ultrafine ferrite formation (1–3 μm) through d...
The mechanisms leading to the alpha fibre texture development in hot rolled ferritic stainless steel...
The ferrite grain size refining is the unique mechanism for increasing both mechanical strength and ...