Journal ArticleDOI
Effect of carbon concentration on precipitation behavior of M23C6 carbides and MX carbonitrides in martensitic 9Cr steel during heat treatment
TLDR
The distribution and precipitated amounts of M23C6 carbides and MX-type carbonitrides with decreasing carbon content from 0.16 to 0.002 mass pct in 9Cr-3W steel, which is used as a heat-resistant steel, has been investigated in this article.Abstract:
The distributions and precipitated amounts of M23C6 carbides and MX-type carbonitrides with decreasing carbon content from 0.16 to 0.002 mass pct in 9Cr-3W steel, which is used as a heat-resistant steel, has been investigated. The microstructures of the steels are observed to be martensite. Distributions of precipitates differ greatly among the steels depending on carbon concentration. In the steels containing carbon at levels above 0.05 pct, M23C6 carbides precipitate along boundaries and fine MX carbonitrides precipitate mainly in the matrix after tempering. In 0.002 pct C steel, there are no M23C6 carbide precipitates, and instead, fine MX with sizes of 2 to 20 nm precipitate densely along boundaries. In 0.02 pct C steel, a small amount of M23C6 carbides precipitate, but the sizes are quite large and the main precipitates along boundaries are MX, as with 0.002 pct C steel. A combination of the removal of any carbide whose size is much larger than that of MX-type nitrides, and the fine distributions of MX-type nitrides along boundaries, is significantly effective for the stabilization of a variety of boundaries in the martensitic 9Cr steel.read more
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Precipitate design for creep strengthening of 9% Cr tempered martensitic steel for ultra-supercritical power plants
TL;DR: The suppression of particle coarsening during creep and the maintenance of a homogeneous distribution of M23C6 carbides near prior austenite grain boundaries are effective for preventing the long-term degradation of creep strength and for improving long- term creep strength by the addition of boron.
Journal ArticleDOI
Type IV cracking in ferritic power plant steels
TL;DR: In this paper, the authors assess the relationship between the composition and microstructure of 9-12 Cr steels, the welding and fabrication procedures and how these factors translate into a propensity for type IV failures.
Journal ArticleDOI
Alloy design of creep resistant 9Cr steel using a dispersion of nano-sized carbonitrides
TL;DR: In this paper, a dispersion of nano-size MX nitrides of vanadium and niobium along boundaries as well as in the matrix is achieved in 9Cr-3W-3Co-VNb steel with 0.05% nitrogen.
Journal ArticleDOI
Bainitic and martensitic creep-resistant steels
TL;DR: A number of new alloy-design concepts based on microstructure stabilization have been proposed for the development of highly creep-resistant bainitic 3Cr and martensitic 9-12Cr steels with higher creep rupture strength than existing high strength steels such as T23 and P92 as mentioned in this paper.
Journal ArticleDOI
Analysis of creep rates of tempered martensitic 9%Cr steel based on microstructure evolution
TL;DR: In this paper, the creep rates of tempered martensitic 9Cr-3W-3Co-VNb steel with different carbon and boron concentrations were investigated with emphasis on the behavior in the transient creep region.
References
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Journal ArticleDOI
The dislocation distribution, flow stress, and stored energy in cold-worked polycrystalline silver
J. E. Bailey,P. B. Hirsch +1 more
TL;DR: In this paper, the distribution and densities of dislocations, determined by electron transmission microscopy, flow stress and stored energy measurements (by microcalorimetry) on cold-worked polycrystalline silver are correlated with each other.
Journal ArticleDOI
Microstructural stability and creep rupture strength of the martensitic steel P92 for advanced power plant
TL;DR: In this paper, Japanese 9% Cr steel containing 0.5% Mo and 1.8% W (P92) has been investigated using TEM of thin foils and extraction double replicas.
Journal ArticleDOI
Creep-strengthening of steel at high temperatures using nano-sized carbonitride dispersions
TL;DR: The production of a 9 per cent Cr martensitic steel dispersed with nanometre-scale carbonitride particles using conventional processing techniques is reported, which should lead to improved grades of creep-resistant steels and to the economical manufacture of large-scale steel components for high-temperature applications.
Journal ArticleDOI
Improved Utilization of Added B in 9Cr Heat-Resistant Steels Containing W
TL;DR: In this article, the effect of improved heat treatment on creep strength and distribution of B in precipitates is investigated to effectively utilize and decrease added B. The authors have revealed in the previous report that the addition of 139ppm B significantly improves creep strength of the steels, whereas most of added B forms unidentified borides, which are deemed almost ineffective to creep strength.
Journal ArticleDOI
Morphology and Substructure of Lath Martensite in Steels
Tadashi Maki,Imao Tamura +1 more