Predicting the Critical Stress for Initiation of Dynamic Recrystallization
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概要
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The critical stress for initiation of dynamic recrystallization (DRX) can be identified from the inflection point on the strain hardening rate (θ=dσ/dε) versus flow stress (σ) curve. This kind of curve can be described by an equation that fits the experimental θ–σ data from zero to the peak stress. Such a curve must have an inflection point and the simplest relation that has such properties is a third order equation.Hot compression tests were carried out on a 304 H stainless steel over the temperature range 900–1 100°C and strain rate range 0.01–1 s−1 to a strain of 1. An appropriate third order equation was fitted to the strain hardening data. The results show that the critical stress at initiation σc=−B/3A where A and B are coefficients of the third order equation. It is evident that this value depends on the deformation conditions. The stress–strain curve was then normalized with respect to the peak stress, leading to a normalized value of the critical stress (uc) equal to uc=σc/σp=−B′/3A′. Here A′ and B′ are coefficients of the normalized third order equation. This value is constant and independent of the deformation conditions.
- 社団法人 日本鉄鋼協会の論文
- 2006-11-15
著者
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Jonas John
Department of Metals and Materials Engineering, McGill University
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Jonas John
Department Of Metallurgical Engineering Mcgill University
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NAJAFIZADEH Abbas
Department of Materials Engineering, Isfahan University of Technology
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Jonas John
Dep. Of Materials Engineering Mcgill Univ.
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Jonas John
Department Of Materials Engineering Mcgill University
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Najafizadeh Abbas
Isfahan Univ. Technol. Isfahan Irn
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Najafizadeh Abbas
Department Of Material Science And Engineering Isfahan University Of Technology
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