A microalloyed steel, industrially produced X60 grade of linepipe steel, has been processed by a single pass hot rolling with 30% reduction followed by cooling under different conditions to understand the microstructural evolution and the ensuing mechanical properties. The imperative is to comprehend the formation of various microstructural constituents with cooling rate and correlate them with the achievable mechanical properties commensurate with higher grades of linepipe steels. The microstructural content showed a continuous change from polygonal ferrite, acicular ferrite, bainitic ferrite to martensite with cooling in still air, forced air, oil and water, respectively. The tensile fracture surfaces indicated a transition from ductile t...
Effect of subsequent heating on the microstructure and mechanical properties of hot rolled niobium ...
A low carbon steel alloyed with Ni, Mn, Mo, Cu and microalloyed with Nb and Ti was prepared. Continu...
The study of the microstructure is necessary so as to investigate the effects of the parameters of i...
The process parameters that affect the anisotropy of mechanical properties of two Nb microalloyed li...
The process parameters related to thermo-mechanical controlled processing (TMCP) of steels play a vi...
The process parameters related to thermo-mechanical controlled processing (TMCP) of steels play a vi...
In this study, four API X80 linepipe steel specimens were fabricated with varying cooling rates and ...
The thermo-mechanical control processing (TMCP) of low carbon (C) Nb-Ti-containing HSLA steel with d...
Advanced line pipe steels are microalloyed with Nb to promote the formation of complex microstructur...
The present work investigates the transformation behavior of a low-carbon Mo-Nb linepipe steel and t...
Microstructural phase of linepipe steels depends on different isothermal conditions. Thermal cycling...
In the present investigation, multiphase microstructures containing a combination of ferrite, marten...
The two-stage controlled rolling and cooling of a low carbon Mo-V-Ti-N steel at different cooling pa...
The relationship between microstructure and tensile properties of an Nb–Ti microalloyed X90 pipeline...
Abstract — Niobium-microalloyed steel has become a standard material in plate and strip for line pip...
Effect of subsequent heating on the microstructure and mechanical properties of hot rolled niobium ...
A low carbon steel alloyed with Ni, Mn, Mo, Cu and microalloyed with Nb and Ti was prepared. Continu...
The study of the microstructure is necessary so as to investigate the effects of the parameters of i...
The process parameters that affect the anisotropy of mechanical properties of two Nb microalloyed li...
The process parameters related to thermo-mechanical controlled processing (TMCP) of steels play a vi...
The process parameters related to thermo-mechanical controlled processing (TMCP) of steels play a vi...
In this study, four API X80 linepipe steel specimens were fabricated with varying cooling rates and ...
The thermo-mechanical control processing (TMCP) of low carbon (C) Nb-Ti-containing HSLA steel with d...
Advanced line pipe steels are microalloyed with Nb to promote the formation of complex microstructur...
The present work investigates the transformation behavior of a low-carbon Mo-Nb linepipe steel and t...
Microstructural phase of linepipe steels depends on different isothermal conditions. Thermal cycling...
In the present investigation, multiphase microstructures containing a combination of ferrite, marten...
The two-stage controlled rolling and cooling of a low carbon Mo-V-Ti-N steel at different cooling pa...
The relationship between microstructure and tensile properties of an Nb–Ti microalloyed X90 pipeline...
Abstract — Niobium-microalloyed steel has become a standard material in plate and strip for line pip...
Effect of subsequent heating on the microstructure and mechanical properties of hot rolled niobium ...
A low carbon steel alloyed with Ni, Mn, Mo, Cu and microalloyed with Nb and Ti was prepared. Continu...
The study of the microstructure is necessary so as to investigate the effects of the parameters of i...