3D Observation on Precipitates of a Ferritic Heat Resistant Steel after Long-term Creep

ABSTRACTThe creep behavior of a new type of austenitic heat-resistant steel Fe-20Cr-30Ni-2Nb (at.%), strengthened by intermetallic Fe2Nb Laves phase, has been examined. Particular attention has been given to the role of grain boundary Laves phase in the strengthening mechanism during long-term creep. The creep resistance increases with increasing area fraction (ρ) of grain boundary Laves phase according to equation ε/ε = (1−ρ), where ε0 is the creep rate at ρ = 0. In addition, the creep rupture life is also extended with increasing ρ without ductility loss, which can yield up to 77% of elongation even at ρ = 89%. Microstructure analysis revealed local deformation and well-developed subgrains formation near the grain boundary free from precipitates, while dislocation pile-ups were observed near the grain boundary Laves phase. Thus, the grain boundary Laves phase is effective in suppressing the local deformation by preventing dislocation motion, and thereby increases the long-term creep rupture strength. This novel creep strengthening mechanism was proposed as “grain boundary precipitation strengthening mechanism” (GBPS).

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

Materials Science Forum ◽

10.4028/www.scientific.net/msf.783-786.1839 ◽

2014 ◽

Vol 783-786 ◽

pp. 1839-1844

Author(s):

Valeriy Dudko ◽

Alexandra Fedoseeva ◽

Pavel Kozlov ◽

Vladimir Skorobogatykh ◽

Izabella Schenkova ◽

...

Keyword(s):

Prior Austenite ◽

Average Thickness ◽

Resistant Steel ◽

Secondary Phases ◽

Heat Resistant Steel ◽

Gauge Section ◽

The Mean ◽

Average Size ◽

Term Creep

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 M23C6carbides 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 M23C6carbides 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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Conditions of transition from initial to accelerated stage of subcritical crack growth in cast heat-resistant steel under long-term loading

Strength of Materials ◽

10.1007/bf00768609 ◽

1979 ◽

Vol 11 (10) ◽

pp. 1144-1148

Author(s):

V. I. Gladshtein ◽

T. N. Semenova

Keyword(s):

Crack Growth ◽

Subcritical Crack Growth ◽

Resistant Steel ◽

Heat Resistant Steel ◽

Heat Resistant

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Effect of Long-Term Ageing at 600 °C on Microstructure of ZG1Cr10MoWVNbN Martensitic Heat-Resistant Steel

High Temperature Materials and Processes ◽

10.1515/htmp-2016-0202 ◽

2018 ◽

Vol 37 (6) ◽

pp. 539-544

Author(s):

Chengzhi Zhao ◽

Ning Li ◽

Yihan Zhao ◽

Hexin Zhang

Keyword(s):

Mechanical Properties ◽

High Temperature ◽

M23c6 Carbide ◽

Resistant Steel ◽

Steam Turbines ◽

Heat Resistant Steel ◽

Property Variation ◽

Heat Resistant ◽

Before And After

AbstractA new kind of martensitic ZG1Cr10MoWVNbN heat-resistant steel has been attracted more attentions in recent years, which is mainly applied in ultra-supercritical steam turbines. The ageing property for ZG1Cr10MoWVNbN heat-resistant steel is very important because it often serves for long-time at high-temperature environment. Herein, a long-term ageing heat treatment was conducted on ZG1Cr10MoWVNbN steel at 600 °C heat for 17,000 hours. The microstructure evolution and property variation of the ZG1Cr10MoWVNbN steel were analysed before and after ageing, and also the effect of the precipitates on the mechanical properties was studied. The result showed that strength, the plastic index and impact power of the ZG1Cr10MoWVNbN steel were gradually decreased after long-term and high-temperature ageing at 600 °C due to the changes of martensite morphology and the coarsening of M23C6 carbide precipitation phase. Furthermore, fine precipitation of matrix MX carbide can also attribute to the change of mechanical properties at high temperature.

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