Effects of Precipitate Shape on High Temperature Strength of Modified 9Cr-1Mo Steels
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概要
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A dispersion of precipitates introduces a threshold stress which opposes deformation. The effect of precipitate shape on dispersion strengthening at elevated temperature has been examined. Three kinds of Mod. 9Cr-1Mo steels without Nb(C, N), with spherical Nb(C, N) and with complex Nb(C, N)+V(N, C) "V-wing" were designed to have the same microstructures except for the shape of precipitates. The threshold stresses were measured by tensile and creep tests at 600°C. Two sorts of effects have been observed. The first is that complex precipitates restrain dislocation from climbing even in a condition in which dislocation climbs over a spherical precipitate. Mobile dislocations are considerably trapped at the concavity of the V-wings during deformation. The second effect is that the probability of dislocation trapping at V-wing is larger than that at spherical Nb(C, N). These trapping effects play important roles in the strenghening effect of precipitate.
著者
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Mabuchi Hidesato
Steel Research Laboratories Nippon Steel Corporation
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Tomita Yukio
Steel Research Laboratories Nippon Steel Corporation
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OKAMOTO Kentaro
Nippon Steel Metal Products Co.
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Tokuno Kazushige
Nagoya R & D Laboratories, Nippon Steel Corporation
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Okamoto Kentaro
Nippon Steel Metal Products Co., Ltd.
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Hamada Kazushi
Steel Research Laboratories, Nippon Steel Corporation
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