A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Microalloying effects on microstructure and mechanical properties of 18Cr–2Mo ferritic stainless steel heavy plates
Highlights We focus on Nb–V stabilized 18Cr–2Mo ferritic stainless steel with/without Ti. We compare microstructures and mechanical properties of steels using several methods. Modification of microstructure that Ti induces reduces toughness of FSS heavy plates. Properties improvement Nb–V steel brings is important for application of FSS plates.
Abstract The microstructure, including grain size and precipitation, tensile strength and Charpy impact toughness of (Nb+V) 18Cr–2Mo ferritic stainless steel heavy plates with/without Ti were investigated by means of optical microscopy, scanning electron microscopy, transmission electron microscopy, X-ray diffraction and standard tensile strength and Charpy impact toughness testing. It was found that for 18Cr–2Mo heavy plate, a good combination of Nb–V stabilized method without Ti induces refinement of grain sizes due to the precipitation of amounts of fine Nb carbonitrides and V nitrides. Meanwhile, the mechanical testing results indicate that optimal transformation of grain size, precipitation that Nb–V composition system brings to 18Cr–2Mo heavy plate is beneficial to improvement of strength and impact toughness.
Microalloying effects on microstructure and mechanical properties of 18Cr–2Mo ferritic stainless steel heavy plates
Highlights We focus on Nb–V stabilized 18Cr–2Mo ferritic stainless steel with/without Ti. We compare microstructures and mechanical properties of steels using several methods. Modification of microstructure that Ti induces reduces toughness of FSS heavy plates. Properties improvement Nb–V steel brings is important for application of FSS plates.
Abstract The microstructure, including grain size and precipitation, tensile strength and Charpy impact toughness of (Nb+V) 18Cr–2Mo ferritic stainless steel heavy plates with/without Ti were investigated by means of optical microscopy, scanning electron microscopy, transmission electron microscopy, X-ray diffraction and standard tensile strength and Charpy impact toughness testing. It was found that for 18Cr–2Mo heavy plate, a good combination of Nb–V stabilized method without Ti induces refinement of grain sizes due to the precipitation of amounts of fine Nb carbonitrides and V nitrides. Meanwhile, the mechanical testing results indicate that optimal transformation of grain size, precipitation that Nb–V composition system brings to 18Cr–2Mo heavy plate is beneficial to improvement of strength and impact toughness.
Microalloying effects on microstructure and mechanical properties of 18Cr–2Mo ferritic stainless steel heavy plates
Han, Jian (author) / Li, Huijun (author) / Xu, Haigang (author)
2014-02-06
9 pages
Article (Journal)
Electronic Resource
English
| British Library Online Contents | 2014
Microstructure–mechanical property correlation in oxide dispersion strengthened 18Cr ferritic steel
| British Library Online Contents | 2017
| British Library Online Contents | 2018
Cellular Solidification Behavior of Fe-18Cr Ferritic Stainless Steels
| British Library Online Contents | 2005