In this study, four API X80 linepipe steel specimens were fabricated with varying cooling rates and finish cooling temperatures, and their microstructures and crystallographic orientations were analyzed to investigate the effects of cooling conditions on their tensile and Charpy impact properties. All the specimens consisted of acicular ferrite, granular bainite, and secondary phases such as martensite and martensite-austenite constituent. The volume fraction of secondary phases increased with increasing cooling rate, and the higher finish cooling temperature resulted in the reduction in volume fraction and grain size of secondary phases. According to the crystallographic orientation analysis data, the effective grain size and unit crack pa...
An ultra-low carbon HSLA-100 grade steel was subjected to two stage forging operation followed by di...
In the present investigation, multiphase microstructures containing a combination of ferrite, marten...
DoctorThis study is concerned with effect of chemical elements and rolling and cooling conditions on...
A microalloyed steel, industrially produced X60 grade of linepipe steel, has been processed by a sin...
Three types of strain-based API X100 pipeline steels composed of polygonal ferrite (PF), acicular fe...
In this study, four low-carbon high-strength bainitic steel specimens were fabricated by varying fin...
Microstructural phase of linepipe steels depends on different isothermal conditions. Thermal cycling...
The effects of start and finish cooling temperatures on microstructure and mechanical properties of ...
In this study, the effect of the coiling temperature on the tensile properties of API X70 linepipe s...
This study is concerned with effects of complex oxides on Charpy impact toughness of heat affected z...
This study is concerned with effects of oxides on Charpy impact properties of heat affected zone (HA...
The correlations of the microstructural factors with the tensile and crack tip opening displacement ...
The two-stage controlled rolling and cooling of a low carbon Mo-V-Ti-N steel at different cooling pa...
The thermo-mechanical control processing (TMCP) of low carbon (C) Nb-Ti-containing HSLA steel with d...
This research employed a novel physical deformation simulator to evaluate the effect of different pr...
An ultra-low carbon HSLA-100 grade steel was subjected to two stage forging operation followed by di...
In the present investigation, multiphase microstructures containing a combination of ferrite, marten...
DoctorThis study is concerned with effect of chemical elements and rolling and cooling conditions on...
A microalloyed steel, industrially produced X60 grade of linepipe steel, has been processed by a sin...
Three types of strain-based API X100 pipeline steels composed of polygonal ferrite (PF), acicular fe...
In this study, four low-carbon high-strength bainitic steel specimens were fabricated by varying fin...
Microstructural phase of linepipe steels depends on different isothermal conditions. Thermal cycling...
The effects of start and finish cooling temperatures on microstructure and mechanical properties of ...
In this study, the effect of the coiling temperature on the tensile properties of API X70 linepipe s...
This study is concerned with effects of complex oxides on Charpy impact toughness of heat affected z...
This study is concerned with effects of oxides on Charpy impact properties of heat affected zone (HA...
The correlations of the microstructural factors with the tensile and crack tip opening displacement ...
The two-stage controlled rolling and cooling of a low carbon Mo-V-Ti-N steel at different cooling pa...
The thermo-mechanical control processing (TMCP) of low carbon (C) Nb-Ti-containing HSLA steel with d...
This research employed a novel physical deformation simulator to evaluate the effect of different pr...
An ultra-low carbon HSLA-100 grade steel was subjected to two stage forging operation followed by di...
In the present investigation, multiphase microstructures containing a combination of ferrite, marten...
DoctorThis study is concerned with effect of chemical elements and rolling and cooling conditions on...