2009
DOI: 10.3139/120.110042
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Cyclic Softening Behaviour of a Duplex Stainless Steel

Abstract: This first part aims to study the correlation between the cyclic softening observed during low-cycle fatigue in a 2507 duplex stainless steel (DSS) alloyed with 0.17% N and the dislocation structure development. Tension-compression and tension-compression- torsion fatigue tests were carried out under total strain control at Δεteq/2 = 0.5%. The dislocation structures were characterized by transmission electron microscopy during cycling with interrupted tests. The austenite showed planar arrangements of dislocat… Show more

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Cited by 44 publications
(80 citation statements)
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“…Comparison with the reported results about microstructure during ART-annealing, [20][21][22] the dominant heat treatment in this study is austenization and annealing in the intercritical region (between Ac1 and Ac3), therefore the original microstructure of the steels should consist of austenite laths and ferrite laths, bright-laths should be austenite laths, and black-laths should be ferrite laths. Furthermore, with the following tempering, the phenomena of precipitation or dissolving of carbides and decomposition of austenite should exist and could be observed in the studied steels.…”
Section: Microstructure Evolution During Following Tem-mentioning
confidence: 99%
“…Comparison with the reported results about microstructure during ART-annealing, [20][21][22] the dominant heat treatment in this study is austenization and annealing in the intercritical region (between Ac1 and Ac3), therefore the original microstructure of the steels should consist of austenite laths and ferrite laths, bright-laths should be austenite laths, and black-laths should be ferrite laths. Furthermore, with the following tempering, the phenomena of precipitation or dissolving of carbides and decomposition of austenite should exist and could be observed in the studied steels.…”
Section: Microstructure Evolution During Following Tem-mentioning
confidence: 99%
“…The SAF 2205 may be referred as the most extensively DSS used nowadays, constituting approximately 80% of its total amount consumed 2 . However, due to high chromium (~22%Cr) and molybdenum (~3%Mo) contents and their high diffusion rate in ferrite, DSSs present a tendency to form unwanted secondary phases during exposure to temperatures between 400 and 1000 ºC 3,4 .…”
Section: Introductionmentioning
confidence: 99%
“…In the annealed thermally treated samples, the secondary austenite precipitation has been trigged ( Figure 4D) and it is followed by the precipitates competitive growth with the ongoing of the thermal treatment. At 210 s/mm ( Figure 4E), a static recovery of the ferritic grains is reported to occur and, then, the competitive coarsening of austenitic grains leads the microstructure evolution until 360 s/mm ( Figure 4F) of holding time [26,36]. Moreover, the effect of the deformation by the cold rolling can be detected, observing the distortion of the austenitic grains, which is more marked in the samples experiencing higher strains ( Figure 4G,H).…”
Section: Resultsmentioning
confidence: 76%
“…The thermal generation of lattice defects can be observed in the maximum value of the aluminum diffusion rate associated to the maximum value of soaking time of the annealing thermal treatment [35,52]. The sample annealed for 210 s/mm undergoes a static recovery phenomenon of the ferritic grains, decreasing the number of its internal δ/δ boundaries and defects; then, also the aluminum diffusion rate is strongly reduced [26,36].…”
Section: Discussionmentioning
confidence: 99%