Add to ORKGHSLA low-carbon bainitic steel containing B was submitted to torsion tests to simulate controlled rolling, followed by interrupted accelerated cooling. Microstructural characteristics and the mechanisms for the refinement of structure were evaluated using light microscopy, scanning electron microscopy, transmission electron microscopy, and Vickers hardness testing. The final microstructure was found to contain complex mixture of granular bainite, small islands of MA constituent, bainitic ferrite, and polygonal ferrite. Increasing the cooling rate or decreasing the finish cooling temperature resulted in a decrease in the volume fraction and average size of the MA islands and the polygonal ferrite. A finish cooling temperature of 400 8 C prod...
AbstractThe recent increased severity in service conditions, such as frequent earthquakes, have furt...
The austenite phase of low carbon steels can be transformed to various bainitic microstructures such...
The effects of B and Cu addition and cooling rate on microstructure and mechanical properties of low...
Controlled rolling, followed by accelerated cooling, was simulated by means of torsion tests. High-s...
This article used Mn-Mo-Cr-B low-carbon bainitic steel as the experimental material. The continuous ...
This article used Mn-Mo-Cr-B low-carbon bainitic steel as the experimental material. The continuous ...
This article used Mn-Mo-Cr-B low-carbon bainitic steel as the experimental material. The continuous ...
The effects of start and finish cooling temperatures on microstructure and mechanical properties of ...
DoctorThis study is concerned with effect of chemical elements and rolling and cooling conditions on...
A comparative study of the microstructure characterization and mechanical properties was done in a H...
Heavy plate steels with bainitic microstructures are widely used in industry due to their good combi...
In this study, four low-carbon high-strength bainitic steel specimens were fabricated by varying fin...
Thermomechanical processing of low carbon bainitic steels is used to obtain a bainitic microstructur...
The microstructure and mechanical properties in the midsection of a high thickness HSLA bainitic ste...
We investigated the microstructural evolution of high strength low alloy steel, Fe-2.0-Mn0.15Si-0.05...
AbstractThe recent increased severity in service conditions, such as frequent earthquakes, have furt...
The austenite phase of low carbon steels can be transformed to various bainitic microstructures such...
The effects of B and Cu addition and cooling rate on microstructure and mechanical properties of low...
Controlled rolling, followed by accelerated cooling, was simulated by means of torsion tests. High-s...
This article used Mn-Mo-Cr-B low-carbon bainitic steel as the experimental material. The continuous ...
This article used Mn-Mo-Cr-B low-carbon bainitic steel as the experimental material. The continuous ...
This article used Mn-Mo-Cr-B low-carbon bainitic steel as the experimental material. The continuous ...
The effects of start and finish cooling temperatures on microstructure and mechanical properties of ...
DoctorThis study is concerned with effect of chemical elements and rolling and cooling conditions on...
A comparative study of the microstructure characterization and mechanical properties was done in a H...
Heavy plate steels with bainitic microstructures are widely used in industry due to their good combi...
In this study, four low-carbon high-strength bainitic steel specimens were fabricated by varying fin...
Thermomechanical processing of low carbon bainitic steels is used to obtain a bainitic microstructur...
The microstructure and mechanical properties in the midsection of a high thickness HSLA bainitic ste...
We investigated the microstructural evolution of high strength low alloy steel, Fe-2.0-Mn0.15Si-0.05...
AbstractThe recent increased severity in service conditions, such as frequent earthquakes, have furt...
The austenite phase of low carbon steels can be transformed to various bainitic microstructures such...
The effects of B and Cu addition and cooling rate on microstructure and mechanical properties of low...