Precipitation of Fe2W laves phase and modeling of its direct influence on the strength of a 12Cr-2W steel

Li, Qiang

doi:10.1007/s11661-006-0155-2

Cited by 84 publications

(47 citation statements)

References 25 publications

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“…After aging at 600 °C for 500 h, a good amount of Laves phase in the P92 steel was in rod like shape. According to the previous study [13] , this rod like shape illustrated that Laves phase was still coherent to the matrix. With the increase of the aging time, both the amount and the size of Laves phase were obviously…”

Section: Laves Phase During Agingsupporting

confidence: 63%

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Relationship between Laves phase and the impact brittleness of P92 steel reevaluated

Zhong

Wang

et al. 2015

Materials Science and Engineering: A

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Section: Laves Phase During Agingsupporting

confidence: 63%

“…Kunimitsu et al reported this phenomenon in 9Cr-2W, 9Cr-2Mo and 9Cr-4W steels [12] . Li has well reviewed this subject in his article [13] . In general, a conclusion can be drawn from all the above reports that impact brittleness happens when Laves phase forms during aging.…”

Section: Introductionmentioning

confidence: 99%

Relationship between Laves phase and the impact brittleness of P92 steel reevaluated

Zhong

Wang

et al. 2015

Materials Science and Engineering: A

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“…These carbides were replaced by more stable Laves phase under short-term creep as in other high-chromium martensitic steels [22].…”

Section: Crept Microstructuresmentioning

confidence: 89%

“…These elements provide an effective solid solution strengthening [1]. It was shown [21] that addition of 1% W gives +35 MPa increase in the creep rupture strength at 600 • C for 1000 h. However, in contrast with cobalt, the tungsten and molybdenum have limited solubility within ferrite, and their excessive content leads to precipitation of such W-and Mo-rich particles as Laves phase Fe 2 (W,Mo) or M 6 C carbides [1,7,[9][10][11][12]22,23]. This depletion does not occur in the 9%Cr steel containing no or low amount of W [7].…”

Section: Introductionmentioning

confidence: 99%

Effect of Tungsten on Creep Behavior of 9%Cr–3%Co Martensitic Steels

Fedoseeva

Dudova

Kaibyshev

et al. 2017

Metals

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Abstract:The effect of increasing tungsten content from 2 to 3 wt % on the creep rupture strength of a 3 wt % Co-modified P92-type steel was studied. Creep tests were carried out at a temperature of 650 • C under applied stresses ranging from 100 to 220 MPa with a step of 20 MPa. It was found that an increase in W content from 2 to 3 wt % resulted in a +15% and +14% increase in the creep rupture strength in the short-term region (up to 10 3 h) and long-term one (up to 10 4 h), respectively. On the other hand, in the long-term creep region, the effect of W on creep strength diminished with increasing rupture time, up to complete disappearance at 10 5 h, because of depletion of excess W from the solid solution in the form of precipitation of the Laves phase particles. An increase in W content led to the increased amount of Laves phase and rapid coarsening of these particles under long-term creep. The contribution of W to the enhancement of creep resistance has short-term character.

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“…However, during long-term aging and creep the M 23 C 6 carbides and Laves phase most likely lose their coherency with ferritic matrix previously and these grain boundary particles coarsen up to nearly the same sizes in the both portions of specimen. The contribution of plastic deformation to coarsening of Laves phase is in acceleration of coherency loss of Fe 2 W particles, precipitated on the boundaries of packets and laths of martensite [4,8]. This process occurs quickly and difference between average sizes of Laves phase in grip and gauge portions is significant when the rupture time is less than 2 000 hours and volume fraction of Laves phase precipitated on high-angle boundaries is similar to that on low-angle boundaries [4].…”

mentioning

confidence: 99%

Effect of Long-Term Creep on Microstructure of a 9% Cr Heat Resistant Steel

Dudko

Fedoseeva

Козлов

et al. 2014

MSF

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Abstract. The effect of long-term creep at 600°C under 137 MPa on the microstructure of a P92-type steel was investigated. The microstructure after tempering consisted of laths with an average thickness of 400 nm. Dispersion of secondary phases consists of M 23 C 6 carbides with an average size of 85 nm located mainly on lath, block and prior austenite boundaries and MX carbonitrides with average size of 31 nm homogeniously distributed throughout. Creep with duration of 40738 hours led to coarsening of M 23 C 6 carbides up to 182 nm. Precipitation of Laves phase with an average size of 290 nm took place in both grip and gauge portions of ruptured specimen. Vanadium-rich MX particles were replaced by particles of Z-phase with sizes of 97 and 48 nm after long-term creep and aging, respectively. The average misorientation of the lath boundaries was approximately 2° and scarcely varied during creep, while the mean lath thickness increased to 890 nm in gauge section of ruptured specimen and remained essentially unchanged in the grip section. Dislocation density decreased slightly under long-range aging and creep.

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Precipitation of Fe2W laves phase and modeling of its direct influence on the strength of a 12Cr-2W steel

Cited by 84 publications

References 25 publications

Relationship between Laves phase and the impact brittleness of P92 steel reevaluated

Relationship between Laves phase and the impact brittleness of P92 steel reevaluated

Effect of Tungsten on Creep Behavior of 9%Cr–3%Co Martensitic Steels

Effect of Long-Term Creep on Microstructure of a 9% Cr Heat Resistant Steel

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