The Influence of Cold Rolling Reduction on r-value and Recrystallization Behavior in Fe-36Ni Alloy

Taizo Sato; Yuji Tashiro; Yoshitaka Honda; Minoru Nishida; Akira Chiba

doi:10.2355/isijinternational.38.640

The Influence of Cold Rolling Reduction on r-value and Recrystallization Behavior in Fe-36Ni Alloy

Taizo Sato, Yuji Tashiro, Yoshitaka Honda, Minoru Nishida, Akira Chiba

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

4 Citations (Scopus)

Abstract

Recrystallization behavior and grain growth in Fe-36%Ni invar alloy for shadow masks in color cathode ray tubes are studied by using transmission electron microscopy. The r-value increases with increasing (111) surface intensity. In case of light cold-rolling reduction, nuclei orientations of recrystallized structure after annealing are (011) and the nuclei are surrounded by cold rolled matrices of (011) orientation. On the other hand, in case of heavy cold rolling reduction, nuclei orientations of recrystallized structure after annealing are (011) and (100). These two nuclei are surrounded by the same cold rolled matrices of (011) orientation with light cold rolling reduction.

Original language	English
Pages (from-to)	640-646
Number of pages	7
Journal	isij international
Volume	38
Issue number	6
DOIs	https://doi.org/10.2355/isijinternational.38.640
Publication status	Published - 1998
Externally published	Yes

All Science Journal Classification (ASJC) codes

Mechanics of Materials
Mechanical Engineering
Metals and Alloys
Materials Chemistry

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10.2355/isijinternational.38.640

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title = "The Influence of Cold Rolling Reduction on r-value and Recrystallization Behavior in Fe-36Ni Alloy",

abstract = "Recrystallization behavior and grain growth in Fe-36%Ni invar alloy for shadow masks in color cathode ray tubes are studied by using transmission electron microscopy. The r-value increases with increasing (111) surface intensity. In case of light cold-rolling reduction, nuclei orientations of recrystallized structure after annealing are (011) and the nuclei are surrounded by cold rolled matrices of (011) orientation. On the other hand, in case of heavy cold rolling reduction, nuclei orientations of recrystallized structure after annealing are (011) and (100). These two nuclei are surrounded by the same cold rolled matrices of (011) orientation with light cold rolling reduction.",

author = "Taizo Sato and Yuji Tashiro and Yoshitaka Honda and Minoru Nishida and Akira Chiba",

year = "1998",

doi = "10.2355/isijinternational.38.640",

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T1 - The Influence of Cold Rolling Reduction on r-value and Recrystallization Behavior in Fe-36Ni Alloy

AU - Sato, Taizo

AU - Tashiro, Yuji

AU - Honda, Yoshitaka

AU - Nishida, Minoru

AU - Chiba, Akira

PY - 1998

Y1 - 1998

N2 - Recrystallization behavior and grain growth in Fe-36%Ni invar alloy for shadow masks in color cathode ray tubes are studied by using transmission electron microscopy. The r-value increases with increasing (111) surface intensity. In case of light cold-rolling reduction, nuclei orientations of recrystallized structure after annealing are (011) and the nuclei are surrounded by cold rolled matrices of (011) orientation. On the other hand, in case of heavy cold rolling reduction, nuclei orientations of recrystallized structure after annealing are (011) and (100). These two nuclei are surrounded by the same cold rolled matrices of (011) orientation with light cold rolling reduction.

AB - Recrystallization behavior and grain growth in Fe-36%Ni invar alloy for shadow masks in color cathode ray tubes are studied by using transmission electron microscopy. The r-value increases with increasing (111) surface intensity. In case of light cold-rolling reduction, nuclei orientations of recrystallized structure after annealing are (011) and the nuclei are surrounded by cold rolled matrices of (011) orientation. On the other hand, in case of heavy cold rolling reduction, nuclei orientations of recrystallized structure after annealing are (011) and (100). These two nuclei are surrounded by the same cold rolled matrices of (011) orientation with light cold rolling reduction.

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The Influence of Cold Rolling Reduction on r-value and Recrystallization Behavior in Fe-36Ni Alloy

Abstract

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