Detail publikace
Influence of microstructure on impact properties of 9–18%Cr ODS steels for fusion/fission applications
HADRABA, H. FOURNIER, B. STRATIL, L. MALAPLATE, J. ROUFIÉ, A. WIDENT, P. ZIOLEK, L. BÉCHADE, J.
Originální název
Influence of microstructure on impact properties of 9–18%Cr ODS steels for fusion/fission applications
Typ
článek v časopise - ostatní, Jost
Jazyk
angličtina
Originální abstrakt
The paper describes the influence of the microstructure of (9–18%)Cr–W–Ti–Y2O3 ODS steels on their impact fracture properties. The extrusion shape plays a major role on the impact properties, materials extruded as a rod present a higher upper shelf energy (USE) and a lower ductile to brittle transition temperature (DBTT) compared to materials extruded as plates. The DBTT for the non-recrystallized 14%Cr ferritic steels was shifted towards higher temperatures compared to the 9%Cr tempered ferritic–martensitic steel. Increasing the W and Ti content in 9%Cr tempered ferritic–martensitic ODS steel leads to a USE and a DBTT shifted towards higher energies and higher temperatures, respectively. Increasing the yttria content leads to a drop of the impact energy and a shift of the DBTT of ferritic ODS steel towards higher temperatures. The present study highlights extensive splitting of the fracture surfaces and a dependency of the impact energy on the fracture plane orientation according to the microstructure anisotropy.
Klíčová slova
ODS steels, KLST, impact behaviour, anisotropy
Autoři
HADRABA, H.; FOURNIER, B.; STRATIL, L.; MALAPLATE, J.; ROUFIÉ, A.; WIDENT, P.; ZIOLEK, L.; BÉCHADE, J.
Rok RIV
2011
Vydáno
1. 4. 2011
ISSN
0022-3115
Periodikum
JOURNAL OF NUCLEAR MATERIALS
Ročník
411
Číslo
1-3
Stát
Nizozemsko
Strany od
112
Strany do
118
Strany počet
7
BibTex
@article{BUT75999,
author="HADRABA, H. and FOURNIER, B. and STRATIL, L. and MALAPLATE, J. and ROUFIÉ, A. and WIDENT, P. and ZIOLEK, L. and BÉCHADE, J.",
title="Influence of microstructure on impact properties of 9–18%Cr ODS steels for fusion/fission applications",
journal="JOURNAL OF NUCLEAR MATERIALS",
year="2011",
volume="411",
number="1-3",
pages="112--118",
issn="0022-3115"
}