Effect of Mo on softening behavior during annealing in cold-rolled high Mn austenitic stainless steels

Shigeru Hirata, Takanori Ito, Masatoshi Mitsuhara, Minoru Nishida

研究成果: ジャーナルへの寄稿記事

1 引用 (Scopus)

抄録

The effect of molybdenum (Mo) on softening behavior of cold-rolled high manganese austenitic stainless steels was investigated. The high temperature hardness of cold-rolled Mo-free steel was drastically decreased by prolonged annealing at 873 K. On the other hand, there is not remarkable degradation of high temperature hardness in the steels containing more than 1 mass% Mo. Fully recrystallized structure is observed in Mo-free steel after annealing at 873 K for 1440 ks. Since deformation structures were not disappeared in the steels containing more than 1 mass% Mo even after annealing, the addition of Mo retarded the recrystallization in the work-hardening steels. After annealing, fine particles of M23C6 type carbide precipitated at the grain boundaries in the steel containing Mo. The amount of Mo in M 23C6 carbides was increased with increasing Mo content. On the other hand, the size of these carbides slightly decreased with increasing Mo content. These fine carbides strongly prevented the grain boundary movement (migration), therefore recrystallizaiton in the work-hardening steels was retarded. Moreover, the growth of M23C6 carbides at the grain boundary was consistent with Ostwald ripening equation substituted Mo for Cr. This result suggested that the growth rate of M23C6 was controlled by the diffusion of Mo.

元の言語英語
ページ(範囲)406-413
ページ数8
ジャーナルTetsu-To-Hagane/Journal of the Iron and Steel Institute of Japan
100
発行部数3
DOI
出版物ステータス出版済み - 3 17 2014

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Molybdenum
austenitic stainless steels
Austenitic stainless steel
softening
molybdenum
Annealing
Steel
annealing
steels
carbides
Carbides
Grain boundaries
work hardening
grain boundaries
Strain hardening
hardness
Hardness
Ostwald ripening
Manganese
manganese

All Science Journal Classification (ASJC) codes

  • Condensed Matter Physics
  • Physical and Theoretical Chemistry
  • Metals and Alloys
  • Materials Chemistry

これを引用

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title = "Effect of Mo on softening behavior during annealing in cold-rolled high Mn austenitic stainless steels",
abstract = "The effect of molybdenum (Mo) on softening behavior of cold-rolled high manganese austenitic stainless steels was investigated. The high temperature hardness of cold-rolled Mo-free steel was drastically decreased by prolonged annealing at 873 K. On the other hand, there is not remarkable degradation of high temperature hardness in the steels containing more than 1 mass{\%} Mo. Fully recrystallized structure is observed in Mo-free steel after annealing at 873 K for 1440 ks. Since deformation structures were not disappeared in the steels containing more than 1 mass{\%} Mo even after annealing, the addition of Mo retarded the recrystallization in the work-hardening steels. After annealing, fine particles of M23C6 type carbide precipitated at the grain boundaries in the steel containing Mo. The amount of Mo in M 23C6 carbides was increased with increasing Mo content. On the other hand, the size of these carbides slightly decreased with increasing Mo content. These fine carbides strongly prevented the grain boundary movement (migration), therefore recrystallizaiton in the work-hardening steels was retarded. Moreover, the growth of M23C6 carbides at the grain boundary was consistent with Ostwald ripening equation substituted Mo for Cr. This result suggested that the growth rate of M23C6 was controlled by the diffusion of Mo.",
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T1 - Effect of Mo on softening behavior during annealing in cold-rolled high Mn austenitic stainless steels

AU - Hirata, Shigeru

AU - Ito, Takanori

AU - Mitsuhara, Masatoshi

AU - Nishida, Minoru

PY - 2014/3/17

Y1 - 2014/3/17

N2 - The effect of molybdenum (Mo) on softening behavior of cold-rolled high manganese austenitic stainless steels was investigated. The high temperature hardness of cold-rolled Mo-free steel was drastically decreased by prolonged annealing at 873 K. On the other hand, there is not remarkable degradation of high temperature hardness in the steels containing more than 1 mass% Mo. Fully recrystallized structure is observed in Mo-free steel after annealing at 873 K for 1440 ks. Since deformation structures were not disappeared in the steels containing more than 1 mass% Mo even after annealing, the addition of Mo retarded the recrystallization in the work-hardening steels. After annealing, fine particles of M23C6 type carbide precipitated at the grain boundaries in the steel containing Mo. The amount of Mo in M 23C6 carbides was increased with increasing Mo content. On the other hand, the size of these carbides slightly decreased with increasing Mo content. These fine carbides strongly prevented the grain boundary movement (migration), therefore recrystallizaiton in the work-hardening steels was retarded. Moreover, the growth of M23C6 carbides at the grain boundary was consistent with Ostwald ripening equation substituted Mo for Cr. This result suggested that the growth rate of M23C6 was controlled by the diffusion of Mo.

AB - The effect of molybdenum (Mo) on softening behavior of cold-rolled high manganese austenitic stainless steels was investigated. The high temperature hardness of cold-rolled Mo-free steel was drastically decreased by prolonged annealing at 873 K. On the other hand, there is not remarkable degradation of high temperature hardness in the steels containing more than 1 mass% Mo. Fully recrystallized structure is observed in Mo-free steel after annealing at 873 K for 1440 ks. Since deformation structures were not disappeared in the steels containing more than 1 mass% Mo even after annealing, the addition of Mo retarded the recrystallization in the work-hardening steels. After annealing, fine particles of M23C6 type carbide precipitated at the grain boundaries in the steel containing Mo. The amount of Mo in M 23C6 carbides was increased with increasing Mo content. On the other hand, the size of these carbides slightly decreased with increasing Mo content. These fine carbides strongly prevented the grain boundary movement (migration), therefore recrystallizaiton in the work-hardening steels was retarded. Moreover, the growth of M23C6 carbides at the grain boundary was consistent with Ostwald ripening equation substituted Mo for Cr. This result suggested that the growth rate of M23C6 was controlled by the diffusion of Mo.

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