Journal ArticleDOI
Effect of Groove Design and Post-Weld Heat Treatment on Microstructure and Mechanical Properties of P91 Steel Weld
TLDR
In this article, the effect of postwelding heat treatment (PWHT) and weld groove designs on the overall microstructure and mechanical properties of P91 steel pipe welds produced by the gas tungsten arc welding process was studied.Abstract:
The martensitic creep-resistant steel designated as ASTM A335 for plate and as P91 for pipe is primarily used for high-temperature and high-pressure applications in steam power plants due to its excellent high-temperature properties such as high creep strength, high thermal conductivity, low thermal expansion, and so on. However, in the case of welded joints of such steels, the presence of an inter-critical heat-affected zone (IC-HAZ) can cause the joint to have lower creep strength than the base metal. In the present study, the effect of post-welding heat treatment (PWHT) and weld groove designs on the overall microstructure and mechanical properties of P91 steel pipe welds produced by the gas tungsten arc welding process was studied. Various regions of welded joints were characterized in detail for hardness and metallographic and tensile properties. Sub-size tensile samples were also tested to evaluate the mechanical properties of the weld metal and heat-affected zone (HAZ) with respect to PWHT. After PWHT, a homogenous microstructure was observed in the HAZ and tensile test fracture samples revealed shifting of the fracture location from the IC-HAZ to the fine-grained heat-affected zone. Before PWHT, the conventional V-grooved welded joints exhibited higher tensile strength compared to the narrow-grooved joints. However, after PWHT, both narrow- and V-grooved joints exhibited similar strength. Fractography of the samples indicates the presence of carbide precipitates such as Cr23C6, VC, and NbC on the fracture surface.read more
Citations
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Journal ArticleDOI
Some studies on P91 steel and their weldments
TL;DR: In this article, microstructure evolution in P91 steel and their weldments are reviewed in as-virgin and heat treatment and creep exposure condition, and the role of grain coarsening, Cr/Fe ratio, lath widening and dislocation density on creep rupture life of base metal and weldments is discussed.
Journal ArticleDOI
Study of the fracture surface morphology of impact and tensile tested cast and forged (C&F) Grade 91 steel at room temperature for different heat treatment regimes
TL;DR: In this paper, the fracture surface of cast and forged (C&F) modified 9Cr-1Mo (P91) steels, which are subjected to different heat treatment regimes, was analyzed by using the field-emission scanning electron microscope (FE-SEM).
Journal ArticleDOI
Study of microstructure and mechanical property relationships of A-TIG welded P91–316L dissimilar steel joint
TL;DR: In this paper, the effect of activating flux tungsten inert gas (A-TIG) welding on the microstructural, mechanical and corrosion behaviour of the 316L stainless steel (SS) and P91 steel weldment was enunciated.
Journal ArticleDOI
Homogenization of P91 weldments using varying normalizing and tempering treatment
TL;DR: In this article, the effect of varying heat treatment on tensile properties and hardness of P91 pipe weldments were studied for V-groove and narrowgroove weld designs.
Journal ArticleDOI
Effect of normalization and tempering on microstructure and mechanical properties of V-groove and narrow-groove P91 pipe weldments
TL;DR: In this article, the effect of post weld heat treatment and normalized and tempered (N&T) heat treatment on tensile properties and hardness variation of P91 weldments was investigated.
References
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Journal ArticleDOI
Strengthening Mechanisms of Creep Resistant Tempered Martensitic Steel
TL;DR: In this article, the authors reviewed the creep deformation resistance and rupture life of high Cr ferritic steel with a tempered martensitic lath structure, and focused on the following three subjects: creep mechanism of the ferritic steels, its alloy design for further strengthening, and loss of its creep rupture strength after long-term use.
Journal ArticleDOI
History of Power Plants and Progress in Heat Resistant Steels
TL;DR: In this article, the authors present a historical view of developments in steam pressure and temperature of fossil-fired power plants and alloy design for heat resistant steels in the 20th century, particularly over the last severaldecades, as well as a survey of the current status of steel development for power plants, mainly with regard to creep strengthening and enhancement of corrosion resistance.
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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.
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Recent Advances in Creep Resistant Steels for Power Plant Applications
TL;DR: In this paper, it is shown that the martensitic transformation in these three steels produces high dislocation density that confers significant transient hardening, however, the dislocations density decreases during exposure at service temperatures due to recovery effects and for longterm creep strength the sub-grain structure produced under different conditions is most important.