Add to ORKGThe microstructure in the heat affected zone of the multi-pass welds constructed using the 9% Cr tempered martensitic steels is complex and susceptible to premature creep failure. In the present research, a systematic investigation has been conducted after long-term creep exposure in the heat affected zone of a multi-pass weld on the 9% Cr Grade 92 steel to identify the sub-optimal microstructures with a high susceptibility to creep cavitation. The characterisation techniques employed include hardness mapping and a range of electron-based microscopy methods. The results provide quantitative data for microstructure and creep cavities. In this case, preferential creep cavitation has been confirmed in the regions within the heat affected zone ...
This paper examines the creep properties of modified 9-12 % Cr steels, especially the P91 grade. Thi...
Grade 91 steel has been widely utilized in power plants over the last 20 years. Its specification fo...
The present work considers the uniaxial and multiaxial creep behaviour of the tempered martensite 9%...
This research concerns weldments in P91 steel and their creep behaviour. Its scope covers three main...
Creep strength enhanced ferritic (CSEF) steels are used in power plants for high temperature, pressu...
© 2020 An excessive concentration of boron in the 9% Cr tempered martensitic steels alloyed with nit...
The weldments made from the 9-12% Cr tempered martensitic steel are associated with a complex micros...
AbstractThe creep damage process of high-Cr steel welded joints is characterized by the formation an...
AbstractIntegrity of tempered martensitic grade 92 (9Cr-1.8W-0.5Mo-VNb) steel welded joint has been ...
The reduction of emissions from fossil fuel power plants is essential to minimising the environmenta...
The subject of this paper is the microstructural and mechanical characterisation of regions of the h...
Abstract Creep strength of high Cr ferritic steel welds decreases than base metals due to Type-IV cr...
In the postweld heat-treated (PWHT) fusion welded modified 9Cr-1Mo steel joint, a soft zone was iden...
JOI JST.JSTAGE/isijinternational/45.1915International audienceIn the present study, creep flow and d...
The studies were performed on dissimilar ferritic/austenitic weldments between 9Cr tempered martensi...
This paper examines the creep properties of modified 9-12 % Cr steels, especially the P91 grade. Thi...
Grade 91 steel has been widely utilized in power plants over the last 20 years. Its specification fo...
The present work considers the uniaxial and multiaxial creep behaviour of the tempered martensite 9%...
This research concerns weldments in P91 steel and their creep behaviour. Its scope covers three main...
Creep strength enhanced ferritic (CSEF) steels are used in power plants for high temperature, pressu...
© 2020 An excessive concentration of boron in the 9% Cr tempered martensitic steels alloyed with nit...
The weldments made from the 9-12% Cr tempered martensitic steel are associated with a complex micros...
AbstractThe creep damage process of high-Cr steel welded joints is characterized by the formation an...
AbstractIntegrity of tempered martensitic grade 92 (9Cr-1.8W-0.5Mo-VNb) steel welded joint has been ...
The reduction of emissions from fossil fuel power plants is essential to minimising the environmenta...
The subject of this paper is the microstructural and mechanical characterisation of regions of the h...
Abstract Creep strength of high Cr ferritic steel welds decreases than base metals due to Type-IV cr...
In the postweld heat-treated (PWHT) fusion welded modified 9Cr-1Mo steel joint, a soft zone was iden...
JOI JST.JSTAGE/isijinternational/45.1915International audienceIn the present study, creep flow and d...
The studies were performed on dissimilar ferritic/austenitic weldments between 9Cr tempered martensi...
This paper examines the creep properties of modified 9-12 % Cr steels, especially the P91 grade. Thi...
Grade 91 steel has been widely utilized in power plants over the last 20 years. Its specification fo...
The present work considers the uniaxial and multiaxial creep behaviour of the tempered martensite 9%...