Description of Stress-strain Curves Based on Thermal Activation Models for a Ti-Fe-0 Alloy at 77 to 296 K with Strain Rates from 10^<-9> to 10^<-2>sec^<-1>
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概要
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Using two thermal activation models for dislocation motion, we analyzed experimental data for a Ti–Fe–O alloy. One is the Kocks-Mecking model and the other is the Ogawa model. These two models differ from each other in the determination of athermal stress component and the modeling of work hardening. The Kocks-Mecking model is found to describe well the measured flow curves in a temperature range between 77 and 296 K and in a strain rate range between 10-5 and 10-2 sec-1. The so-called base curve is found to be a flow curve at the strain rate of approximately 10-9 sec-1 by the calculations using the Kocks-Mecking model. In actual, the strain rate of 10-9 sec-1 is approximately the minimum strain rate obtained by the crosshead displacement dwell test. The Ogawa model was found to be insufficient to describe the above flow curves for the Ti–Fe–O alloy.
- 社団法人 日本鉄鋼協会の論文
- 2000-01-15
著者
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Tomota Y
Ibaraki University Faculty Of Engineering
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Tomota Yo
Department Of Materials Science Faculty Of Engineering Ibaraki University
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Nagai K
Metallurgical Processing Group Steel Research Center National Institute For Materials Science
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Tsuchida Noriyuki
Graduate School Of Engineering University Of Hyogo
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MORIYA Hideaki
Corporate R&D Center, MITSUI MINING & SMELTING CO., LTD
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UMEZAWA Osamu
Frontier Research Center for Structural Materials, National Research Institute for Metals
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NAGAI Kotobu
Frontier Research Center for Structural Materials, National Research Institute for Metals
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Tsuchida Noriyuki
Graduate School Of Engineering Univ. Of Hyogo
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Moriya Hideaki
Corporate R&d Center Mitsui Mining & Smelting Co. Ltd
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Umezawa Osamu
Frontier Research Center For Structural Materials National Research Institute For Metals
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