Add to ORKGThe effect of low-alloy additions on phase transformation of high strength low alloyed steels is reported. Various as-quenched materials with microstructures consisting of low carbon (granular) bainitic, mixed bainitic/martensitic and fully martensitic microstructures were reproduced in laboratory. Results show that for a given cooling rate, an increase of austenite grain size (AGS) and of Mo and Cr contents decreases the transformation temperatures and promotes martensite formation
The ability of a steel to be formed is often measured as the product of the ultimate tensile strengt...
DoctorAn isothermal transformation below the MS temperature was observed during the ‘Quenching and P...
This paper comprehends the effects of finish rolling temperature (FRT) and Nb-microalloying on the m...
The effect of low-alloy additions on phase transformation of high strength low alloyed steels is rep...
Heavy plate steels with bainitic microstructures are widely used in industry due to their good combi...
The influence of C in the range of 0.011-0.043 wt-% on the phase transformation characteristics, mec...
The effect of low-alloy additions on low-C steels hardenability is reported. Various as-quenched mat...
This study attempts to determine the scope and extent of microstructural refinement through complete...
This research work describes a thermo mechanical investigation of a low alloy steel treated in the (...
This article used Mn-Mo-Cr-B low-carbon bainitic steel as the experimental material. The continuous ...
During processing of low carbon high strength linepipe steels, complex microstructures are usually o...
The microstructure of low alloy Transformation Induced Plasticity (TRIP) assisted steels has been sy...
The crystallography of transformation products with different cooling rates has been investigated in...
High strength, low alloy, hot rolled strip steels with yield stresses in the range 700 to 1300MPa ar...
There are several operative strengthening mechanisms in low carbon martensitic steels that depend on...
The ability of a steel to be formed is often measured as the product of the ultimate tensile strengt...
DoctorAn isothermal transformation below the MS temperature was observed during the ‘Quenching and P...
This paper comprehends the effects of finish rolling temperature (FRT) and Nb-microalloying on the m...
The effect of low-alloy additions on phase transformation of high strength low alloyed steels is rep...
Heavy plate steels with bainitic microstructures are widely used in industry due to their good combi...
The influence of C in the range of 0.011-0.043 wt-% on the phase transformation characteristics, mec...
The effect of low-alloy additions on low-C steels hardenability is reported. Various as-quenched mat...
This study attempts to determine the scope and extent of microstructural refinement through complete...
This research work describes a thermo mechanical investigation of a low alloy steel treated in the (...
This article used Mn-Mo-Cr-B low-carbon bainitic steel as the experimental material. The continuous ...
During processing of low carbon high strength linepipe steels, complex microstructures are usually o...
The microstructure of low alloy Transformation Induced Plasticity (TRIP) assisted steels has been sy...
The crystallography of transformation products with different cooling rates has been investigated in...
High strength, low alloy, hot rolled strip steels with yield stresses in the range 700 to 1300MPa ar...
There are several operative strengthening mechanisms in low carbon martensitic steels that depend on...
The ability of a steel to be formed is often measured as the product of the ultimate tensile strengt...
DoctorAn isothermal transformation below the MS temperature was observed during the ‘Quenching and P...
This paper comprehends the effects of finish rolling temperature (FRT) and Nb-microalloying on the m...