Add to ORKGBy combining modelling and experimental work, new insights have been gained into the combined oxidation/carburisation of 9Cr-1Mo steels in CO2 rich environments. The breakaway-oxidation process is preceded by the rejection of carbon into the scale due to the poor solubility of carbon in the metal. Experimental TEM work reveals the formation of a carbide rich layer near the substrate surface which forms a further barrier against carbon ingress. The eventual oxidation of this layer could contribute to breakaway oxidation. A 2D finite-difference based diffusion model developed in combination with Thermo-Calc software underlines the role of specimen geometry on breakaway initiation
Materials to convey hot CO2-rich gases are needed in carbon capture technologies currently being dev...
Commercial STBA26, 9Cr-1Mo ferritic steel, was exposed to CO2 gas and air at 700°C in order to under...
Two martensitic steels were reacted with Ar–50%CO2 at 550 °C for exposure times up to 150 h. Microst...
Fundamental insights into the mechanism of breakaway oxidation in Fe9Cr1Mo steel are deduced, throug...
Fundamental insights into the mechanism of breakaway oxidation in Fe9Cr1Mo steel are deduced, throug...
To provide clarity on the poorly-understood mechanism of breakaway oxidation, corrosion of Fe9Cr1Mo ...
During operation within an Advance Gas Cooled Reactor (AGR) 9Cr-1Mo steel is subjected to high tempe...
To provide clarity on the poorly-understood mechanism of breakaway oxidation, corrosion of Fe9Cr1Mo ...
To provide clarity on the poorly-understood mechanism of breakaway oxidation, corrosion of Fe9Cr1Mo ...
Supplementary files for article Assessment of corrosive attack of Fe9Cr1Mo alloys in pressurised CO2...
Supplementary files for article Assessment of corrosive attack of Fe9Cr1Mo alloys in pressurised CO2...
Supplementary files for article Assessment of corrosive attack of Fe9Cr1Mo alloys in pressurised CO2...
Supplementary files for article Assessment of corrosive attack of Fe9Cr1Mo alloys in pressurised CO2...
9Cr-1Mo steels have been used extensively in the power generation industry. In this study, a wide ra...
To better understand oxidation and carburisation processes taking place during exposure of 9Cr-1Mo s...
Materials to convey hot CO2-rich gases are needed in carbon capture technologies currently being dev...
Commercial STBA26, 9Cr-1Mo ferritic steel, was exposed to CO2 gas and air at 700°C in order to under...
Two martensitic steels were reacted with Ar–50%CO2 at 550 °C for exposure times up to 150 h. Microst...
Fundamental insights into the mechanism of breakaway oxidation in Fe9Cr1Mo steel are deduced, throug...
Fundamental insights into the mechanism of breakaway oxidation in Fe9Cr1Mo steel are deduced, throug...
To provide clarity on the poorly-understood mechanism of breakaway oxidation, corrosion of Fe9Cr1Mo ...
During operation within an Advance Gas Cooled Reactor (AGR) 9Cr-1Mo steel is subjected to high tempe...
To provide clarity on the poorly-understood mechanism of breakaway oxidation, corrosion of Fe9Cr1Mo ...
To provide clarity on the poorly-understood mechanism of breakaway oxidation, corrosion of Fe9Cr1Mo ...
Supplementary files for article Assessment of corrosive attack of Fe9Cr1Mo alloys in pressurised CO2...
Supplementary files for article Assessment of corrosive attack of Fe9Cr1Mo alloys in pressurised CO2...
Supplementary files for article Assessment of corrosive attack of Fe9Cr1Mo alloys in pressurised CO2...
Supplementary files for article Assessment of corrosive attack of Fe9Cr1Mo alloys in pressurised CO2...
9Cr-1Mo steels have been used extensively in the power generation industry. In this study, a wide ra...
To better understand oxidation and carburisation processes taking place during exposure of 9Cr-1Mo s...
Materials to convey hot CO2-rich gases are needed in carbon capture technologies currently being dev...
Commercial STBA26, 9Cr-1Mo ferritic steel, was exposed to CO2 gas and air at 700°C in order to under...
Two martensitic steels were reacted with Ar–50%CO2 at 550 °C for exposure times up to 150 h. Microst...