Evidence for Suzuki effect in an Fe-Ni-Cr austenitic stainless steel

Y. Kaneko; K. Kaneko; A. Nohara; H. Saka

doi:10.1080/01418619508244364

Evidence for Suzuki effect in an Fe-Ni-Cr austenitic stainless steel

Y. Kaneko, K. Kaneko, A. Nohara, H. Saka

Research output: Contribution to journal › Article › peer-review

16 Citations (Scopus)

Abstract

The widths of extended dislocations in a single crystal of a low carbon Fe-19wt% Cr-12wt%Ni stainless steel were measured after three different treatments. They include deformation at 523 K or 673 K (treatment l), deformation at room temperature (treatment 2) and annealing at 523 K after room-temperature deformation (treatment 3). In-situ thermal cycling experiments were also carried out. The room-temperature value of the width of extended dislocations was the smallest after treatment 2 and the largest after treatment 1. During the in-situ thermal cycling experiment the width decreased with increasing temperature in a reversible manner. These features were explained by assuming that the Suzuki segregation of solute atoms toward the stacking fault ribbon of an extended dislocation is enhanced significantly during deformation at high temperatures.

Original language	English
Pages (from-to)	399-407
Number of pages	9
Journal	Philosophical Magazine A: Physics of Condensed Matter, Structure, Defects and Mechanical Properties
Volume	71
Issue number	2
DOIs	https://doi.org/10.1080/01418619508244364
Publication status	Published - Feb 1995
Externally published	Yes

All Science Journal Classification (ASJC) codes

Electronic, Optical and Magnetic Materials
Materials Science(all)
Condensed Matter Physics
Physics and Astronomy (miscellaneous)
Metals and Alloys

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10.1080/01418619508244364

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title = "Evidence for Suzuki effect in an Fe-Ni-Cr austenitic stainless steel",

abstract = "The widths of extended dislocations in a single crystal of a low carbon Fe-19wt% Cr-12wt%Ni stainless steel were measured after three different treatments. They include deformation at 523 K or 673 K (treatment l), deformation at room temperature (treatment 2) and annealing at 523 K after room-temperature deformation (treatment 3). In-situ thermal cycling experiments were also carried out. The room-temperature value of the width of extended dislocations was the smallest after treatment 2 and the largest after treatment 1. During the in-situ thermal cycling experiment the width decreased with increasing temperature in a reversible manner. These features were explained by assuming that the Suzuki segregation of solute atoms toward the stacking fault ribbon of an extended dislocation is enhanced significantly during deformation at high temperatures.",

author = "Y. Kaneko and K. Kaneko and A. Nohara and H. Saka",

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T1 - Evidence for Suzuki effect in an Fe-Ni-Cr austenitic stainless steel

AU - Kaneko, Y.

AU - Kaneko, K.

AU - Nohara, A.

AU - Saka, H.

PY - 1995/2

Y1 - 1995/2

N2 - The widths of extended dislocations in a single crystal of a low carbon Fe-19wt% Cr-12wt%Ni stainless steel were measured after three different treatments. They include deformation at 523 K or 673 K (treatment l), deformation at room temperature (treatment 2) and annealing at 523 K after room-temperature deformation (treatment 3). In-situ thermal cycling experiments were also carried out. The room-temperature value of the width of extended dislocations was the smallest after treatment 2 and the largest after treatment 1. During the in-situ thermal cycling experiment the width decreased with increasing temperature in a reversible manner. These features were explained by assuming that the Suzuki segregation of solute atoms toward the stacking fault ribbon of an extended dislocation is enhanced significantly during deformation at high temperatures.

AB - The widths of extended dislocations in a single crystal of a low carbon Fe-19wt% Cr-12wt%Ni stainless steel were measured after three different treatments. They include deformation at 523 K or 673 K (treatment l), deformation at room temperature (treatment 2) and annealing at 523 K after room-temperature deformation (treatment 3). In-situ thermal cycling experiments were also carried out. The room-temperature value of the width of extended dislocations was the smallest after treatment 2 and the largest after treatment 1. During the in-situ thermal cycling experiment the width decreased with increasing temperature in a reversible manner. These features were explained by assuming that the Suzuki segregation of solute atoms toward the stacking fault ribbon of an extended dislocation is enhanced significantly during deformation at high temperatures.

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Evidence for Suzuki effect in an Fe-Ni-Cr austenitic stainless steel

Abstract

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