2001
DOI: 10.2355/isijinternational.41.641
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Advances in Physical Metallurgy and Processing of Steels. Strengthening Mechanisms of Creep Resistant Tempered Martensitic Steel.

Abstract: The creep deformation resistance and rupture life of high Cr ferritic steel with a tempered martensitic lath structure are critically reviewed on the basis of experimental data. Special attention is directed to the following three subjects: creep mechanism of the ferritic steel, its alloy design for further strengthening, and loss of its creep rupture strength after long-term use.The high Cr ferritic steel is characterized by its fine subgrain structure with a high density of free dislocations within the subgr… Show more

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Cited by 662 publications
(336 citation statements)
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“…These cavities grow under the influence of stress which can lead to failure. Generally, strategies are adopted to prevent creep damage to form, or slow down its growth [1,2]. An alternative method in the form of self healing has been proposed by Laha and coworkers [3] and Shinya [4], where selective precipitation of supersaturated solute at creep cavities hinders the creep cavity growth in stainless steels.…”
Section: Introductionmentioning
confidence: 99%
“…These cavities grow under the influence of stress which can lead to failure. Generally, strategies are adopted to prevent creep damage to form, or slow down its growth [1,2]. An alternative method in the form of self healing has been proposed by Laha and coworkers [3] and Shinya [4], where selective precipitation of supersaturated solute at creep cavities hinders the creep cavity growth in stainless steels.…”
Section: Introductionmentioning
confidence: 99%
“…These are fully tempered martensitic steels characterised by well formed laths and a high dislocation density of the order 10 14 m -2 [2]. Relatively large Cr 23 C 6 particles are present at grain and subgrain boundaries and finer MX [(V,Nb)(C,N)]…”
Section: Introductionmentioning
confidence: 99%
“…7, 8; Tables 2, 3). Especially as the literature data (Ref 27,28) show that the main mechanism of strengthening in martensitic steels of the 9-12% Cr type is the strengthening with grain boundaries and the solution strengthening constituting, respectively, 33 and 29% of the yield strength increase. Nevertheless, in the longer term, these precipitates will be subject to the process of coagulation during service, which leads to a reduction of their number, assuming their constant volume fraction as per OstwaldÕs law (Ref 5,14,16).…”
Section: Discussionmentioning
confidence: 99%