Why do secondary cracks preferentially form in hot-rolled ODS steels in comparison with hot-extruded ODS steels?
Why do secondary cracks preferentially form in hot-rolled ODS steels in comparison with hot-extruded ODS steels?
Das, A.; Viehrig, H. W.; Altstadt, E.; Bergner, F.; Hoffmann, J.
Abstract
Secondary cracks are known to absorb energy, retard primary crack propagation and initiate at lower loads than primary cracks. They are observed more often in hot-rolled than in hot extruded ODS steels. In this work, the microstructural factors responsible for this observation are investigated. Better understanding of these factors can lead to tailoring of im-proved ODS steels. Fracture toughness testing of two batches of 13Cr ODS steel, one hot-rolled and the other hot-extruded, was carried out. The fracture behaviour of secondary cracks was investigated using scanning electron microscopy (SEM) and electron backscatter diffraction (EBSD). Crystallographic texture and grain morphology play a predominant role in preventing secondary cracks in hot-extruded ODS steels. At lower temperatures, secondary cracks occur predominantly via transgranular cleavage. The fracture mode changes to ductile and intergranular at higher temperatures.
Keywords: ODS steel; fracture behaviour; anisotropy; intergranular fracture; secondary cracking; delamination
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ROBIS: 28114 is an alternate identifier of this (Id 27705) publication
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Crystals 8(2018)8, 306
DOI: 10.3390/cryst8080306
Cited 5 times in Scopus
Permalink: https://www.hzdr.de/publications/Publ-27705