Optimization of Alloy Design and Hot Rolling Conditions for Shape Memory in Fe-Mn-Si-based Alloys
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概要
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The effect of composition and hot rolling conditions on the shape memory effect (SME) in the Fe–Mn–Si-based system has been studied to obtain improved shape memory without the need to rely on “training”. It has been found that the texture is not markedly affected by rolling conditions, and texture is therefore not a major factor in explaining variations in SME with processing conditions. Decreasing the pre-deformation temperature to below the Ms was found to have a beneficial effect on shape memory. It was found that the best SME was achieved in an alloy that had Ms just above room temperature, and had been processed by hot rolling followed by recovery annealing. Alloys of different compositions exhibited different optimum rolling temperatures for maximum shape memory performance.
- 社団法人 日本鉄鋼協会の論文
- 2006-11-15
著者
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Dunne Druce
Univ. Wollongong Wollongong Aus
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Dunne Druce
Faculty Of Engineering University Of Wollongong
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Stanford Nicole
Deakin Univ. Geelong Aus
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STANFORD Nicole
Faculty of Engineering, University of Wollongong
関連論文
- Effect of Alloying Additions on the SFE, Neel Temperature and Shape Memory Effect in Fe-Mn-Si-based Alloys
- Optimization of Alloy Design and Hot Rolling Conditions for Shape Memory in Fe-Mn-Si-based Alloys
- Castability and Microstructural Development of Iron-based Alloys under Conditions Pertinent to Strip Casting – Specialty Fe–Cr–Al Alloys