Add to ORKGA new generation of low-carbon microalloyed High Strength Low Alloy (HSLA) steels has been developed to utilize a combination of single-phase ferritic microstructures and optimized interphase precipitation to provide high level strength and exceptional formability. The interphase precipitation reaction is a transient process lending itself strongly to take advantage of in-situ characterization techniques. The austenite/ferrite interface kinetics during isothermal transformation at 1003 K is measured using HT-CSLM, the pre-exponential effective mobility constant was found to be mobility 0.822 (m J)/(mole s). The V interphase precipitation is characterised using TEM at isothermal transformation temperatures of 923 and 973 K as having inter-sh...
In this study hot ductility has been determined from tensile tests for two states of a microalloyed ...
This research work describes a thermo mechanical investigation of a low alloy steel treated in the (...
To reduce energy and resource consumption, high-strength hot-rolled rebars with yield strengths of ≥...
Advanced High Strength Steels rely upon complex multi-phase microstructures, which result in excelle...
Abstract In-situ characterization techniques have been applied to elucidate the influence of γ/α tr...
The complexity of interphase precipitation in a Fe-0.19C-1.54Mn-0.4Si-0.06Al-0.13Mo-0.06Ti (at%) hig...
In this study, the evolution of high-strength HSLA steel microstructure was studied using high-tempe...
The process of transformation on the run-out table of a hot strip mill critically determines the fin...
The precipitation of the microalloying elements in high strength low alloyed (HSLA) steel controls t...
This paper deals with the influence of steel composition (with respect to the microalloying elements...
The HSLA-100 steels contain various alloying additions such as Cr, Mn, Mo, Cu and Ni apart from niob...
The evolution of characteristic features of interphase precipitation in steels with progressive of a...
A model for interphase precipitation has been developed based on the ledge mechanism of austenite-to...
A good combination of strength and toughness in HSLA steels can be achieved by the addition of micro...
Two aspects of mechanical property improvement in a modern low carbon copper bearing high strength l...
In this study hot ductility has been determined from tensile tests for two states of a microalloyed ...
This research work describes a thermo mechanical investigation of a low alloy steel treated in the (...
To reduce energy and resource consumption, high-strength hot-rolled rebars with yield strengths of ≥...
Advanced High Strength Steels rely upon complex multi-phase microstructures, which result in excelle...
Abstract In-situ characterization techniques have been applied to elucidate the influence of γ/α tr...
The complexity of interphase precipitation in a Fe-0.19C-1.54Mn-0.4Si-0.06Al-0.13Mo-0.06Ti (at%) hig...
In this study, the evolution of high-strength HSLA steel microstructure was studied using high-tempe...
The process of transformation on the run-out table of a hot strip mill critically determines the fin...
The precipitation of the microalloying elements in high strength low alloyed (HSLA) steel controls t...
This paper deals with the influence of steel composition (with respect to the microalloying elements...
The HSLA-100 steels contain various alloying additions such as Cr, Mn, Mo, Cu and Ni apart from niob...
The evolution of characteristic features of interphase precipitation in steels with progressive of a...
A model for interphase precipitation has been developed based on the ledge mechanism of austenite-to...
A good combination of strength and toughness in HSLA steels can be achieved by the addition of micro...
Two aspects of mechanical property improvement in a modern low carbon copper bearing high strength l...
In this study hot ductility has been determined from tensile tests for two states of a microalloyed ...
This research work describes a thermo mechanical investigation of a low alloy steel treated in the (...
To reduce energy and resource consumption, high-strength hot-rolled rebars with yield strengths of ≥...