Effect of Long-Term Service on Microstructure and Mechanical Properties of Martensitic 9% Cr Steel

Golański, G.; Zielińska‐Lipiec, A.; Zieliński, A.; Sroka, M.

doi:10.1007/s11665-017-2556-3

Cited by 44 publications

(32 citation statements)

References 27 publications

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“…The tendency to precipitate this unfavourable phase increases with the increase of chromium and niobium content in steel [16]. In 9% Cr steels phase Z is a coherent precipitate, with a size comparable to MX precipitates and occurs in the microstructure usually in the form of single particles [16,17], hence its influence on the properties of theses steels is relatively limited [18]. However, the inhibiting effect of MX precipitates on the dislocation movement was still observed in the tested steel.…”

Section: Microstructure Of Steel P91 and Pb2 After Long-term Ageingmentioning

confidence: 99%

MICROSTRUCTURAL ASPECTS OF LONG-TERM AGEING OF MARTENSITIC 9% Cr STEEL WITH AND WITHOUT BORON ADDITION

Golański¹,

Merda²,

Klimaszewska³

2019

JMM

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Section: Microstructure Of Steel P91 and Pb2 After Long-term Ageingmentioning

confidence: 99%

MICROSTRUCTURAL ASPECTS OF LONG-TERM AGEING OF MARTENSITIC 9% Cr STEEL WITH AND WITHOUT BORON ADDITION

Golański¹,

Merda²,

Klimaszewska³

2019

JMM

Self Cite

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“…It has been reported [14][15][16] that the precipitation phases of high-Cr ferritic heat-resistant steel are mainly composed of M 23 C 6 , located at the boundaries or subgrain boundaries, MX grain interiors and Laves phases (type Fe 2 W), generated during aging. In the long-term service [15,16], the dislocation density decreased, the size of the martensite lath increased, M 2 N phases disappeared, Z-phase formed, Mo and W decreased in amount, while M 23 C 6 phases became coarser. In recent years, researchers [5] have attempted to qualitatively analyze the influence of microstructure degradation on creep strength.…”

Section: Introductionmentioning

confidence: 99%

Study on creep behavior and microstructure of a Fe–Cr–Al–Nb–W ferrtic heat-resistant steel based on C, N and Al element control

Zhang

Shen

Kang

et al. 2020

Mater. Res. Express

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In this work, the effects of C, N, and Al on the microstructures and creep properties of Fe-Cr-Al-Nb-W ferritic alloys were investigated through scanning electron microscopy, x-ray diffractometry, as well as uniaxial creep testing and hardness testing. The results demonstrated that the matrix of the Fe-Cr-Al-Nb-W heat-resistant steel was ferrite, while the precipitation phases were Laves phases, M 23 C 6 carbides and MX nitride phases. M 23 C 6 and MX precipitated at grain interior, Laves phases precipitated at grain interior, grain boundary and around MX phases. C, N and Al affected microstructure and creep of heat-resistant steel. As the Al content increased or as N content decreased along with the C increase, the average diameter of the Laves phases, along with M 23 C 6 and MX phase grain interior decrease. Moreover, the unit density increased and the phase spacing decreased, which led to the minimum creep rate decrease and creep rupture time increase. Compared to M 23 C 6 , Laves and MX phases mainly affected the alloy creep strength. The decrease of Laves phase continuity coefficient (ratio of Laves phase particle spacing and size) on the grain boundary was conducive to the plasticity improvement of heat-resistant steel.

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“…These data are the basis for using this steel in supercritical and ultra-supercritical boilers. The creep strength determined for 100,000 h at 700 • C is 95 MPa, and it is comparable to that of the HR6W nickel-base alloy [1,8,9]. High functional properties of the Sanicro 25 steel were the basis for its implementation in supercritical and ultrasupercritical power units [1,9].…”

Section: Introductionmentioning

confidence: 99%

Analysis of Phase Precipitation in Sanicro 25 Austenitic Steel after Ageing

2019

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This paper presents the analysis of the processes of secondary phase precipitation in Sanicro 25 (22Cr25NiWCoCu) austenitic steel. The examined material was subject to long-term ageing for the time of annealing up to 10,000 h at 700 and 750 • C. The performed tests showed the presence of primary MX precipitates and Z phase. Long-term ageing resulted in the occurrence of the coherent phase rich in Cu (ε_Cu), M23C6 carbides, and precipitates of MX and NbCrN.

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Effect of Long-Term Service on Microstructure and Mechanical Properties of Martensitic 9% Cr Steel

Cited by 44 publications

References 27 publications

MICROSTRUCTURAL ASPECTS OF LONG-TERM AGEING OF MARTENSITIC 9% Cr STEEL WITH AND WITHOUT BORON ADDITION

MICROSTRUCTURAL ASPECTS OF LONG-TERM AGEING OF MARTENSITIC 9% Cr STEEL WITH AND WITHOUT BORON ADDITION

Study on creep behavior and microstructure of a Fe–Cr–Al–Nb–W ferrtic heat-resistant steel based on C, N and Al element control

Analysis of Phase Precipitation in Sanicro 25 Austenitic Steel after Ageing

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