Pseudoelastic Behavior of Fe-Al Polycrystals
スポンサーリンク
概要
- 論文の詳細を見る
Pseudoelastic behavior of Fe–Al polycrystals at room temperature was examined focusing on Al concentration, the crystallographic texture and the grain size. Perfect pseudoelasticity derived from the reversible motion of 1/4 ‹111› superpartial dislocations dragging the anti-phase boundaries (APB) took place in Fe–25.0at%Al polycrystals at a total strain of 1.0%. The amount of strain recovery in Fe–Al polycrystals showed a maximum at 25.0 at% Al and the deviation from the concentration led to a decrease in strain recovery. The backward stress due to APB and dislocation configuration in Fe–Al alloys was closely related to the dependence of the pseudoelasticity on Al concentration. The pseudoelastic behavior of Fe–25.0at%Al polycrystals depended strongly on the loading axis, which could be accounted for in terms of the Taylor factor. Moreover, recovery strain of Fe–23.0Al polycrystals increased with increasing average grain size suggesting that the grain boundaries suppressed the forward and backward motion of the superpartials and were harmful for the pseudoelasticity.
- 社団法人 日本鉄鋼協会の論文
- 2010-01-15
著者
-
Umakoshi Yukichi
National Institute For Materials Science
-
Kawamura Yuuki
Division Of Materials And Manufacturing Science Graduate School Of Engineering Osaka University
-
YASUDA Hiroyuki
Division of Materials and Manufacturing Science, Graduate School of Engineering, Osaka University
-
Yasuda Hiroyuki
Division Of Materials And Manufacturing Science Graduate School Of Engineering Osaka University
-
KOUZAI Keiji
Division of Materials and Manufacturing Science, Graduate School of Engineering, Osaka University
-
Kouzai Keiji
Division Of Materials And Manufacturing Science Graduate School Of Engineering Osaka University
-
Umakoshi Yukichi
National Inst. For Materials Sci.
関連論文
- D0[3]型Fe基化合物の特異な擬弾性 (特集 構造用金属間化合物の最近の進展)
- 多相性リン酸カルシウムの直接覆髄法への応用 : ラットを用いた硬組織誘導能の検討
- 透過型光学系を有する微小領域X線回折法によるヒト海綿骨内生体アパタイト配向性の2次元定量解析
- MeV電子照射アモルファス化を利用した合金の組織観察
- 良好な曲げ延性を有するベータチタンタイプTi-Nb-Ta-Zr(TNTZ)溶融抽出紡糸ワイヤーの構造と機械的性質
- 電子線照射誘起結晶-アモルファス-結晶相転移
- 大理石骨病(op/op)マウスの大腿骨骨幹中央断面部での生体アパタイト結晶の配向性分布
- Nano-Crystallization and Stability of an Amorphous Phase in Fe-Nd-B Alloy under 2.0MeV Electron Irradiation
- 海綿骨のCT立体構造モデル構築とアパタイト配向性に基づく弾性異方性を考慮した応力解析
- 長周期積層構造型Mg-Zn-Y系合金押出材の機械的性質に及ぼす押出条件の影響
- 2113 転位の可逆運動を利用したFe-Al系形状記憶合金の擬弾性挙動(S06-3 形状記憶合金の特性と応用技術(3),S06 形状記憶合金の特性と応用技術)
- 生体硬組織の高分解能イメージベース・シミュレーション (ミニ特集 ハーモニックバイオマテリアル--界面制御型生体調和材料の創製)
- Fabrication of Beta-Ti-Type Ti-Nb-Ta-Zr (TNTZ) Wire with High-Ductility by Arc-Melt-Type Melt-Extraction Method
- OS0316 Mg_ZnY長周期相の塑性変形機構,Mg合金強化機構(非立方晶型金属材料の変形現象とそのモデル化,オーガナイズドセッション)
- OS0304 Mg合金におけるマルチモーダル組織形成と機械的特性改善(非立方晶型金属材料の変形現象とそのモデル化,オーガナイズドセッション)
- Texture Control in Hydroxyapatite by Hot Forging
- Preparation of Zr-Based Metallic Glass Wires for Biomaterials by Arc-Melting Type Melt-Extraction Method
- Preferential orientation of biological apatite crystallite in original, regenerated and diseased cortical bones
- Magneto-mechanical and Pseudoelastic Damping of Fe-Al Based Single Crystals
- Analysis of Biological Apatite Orientation in Rat Mandibles
- Fabrication of Ti-Zr Binary Metallic Wire by Arc-Melt-Type Melt-Extraction Method
- Pseudoelastic Behavior of Fe-Al Polycrystals
- Temperature Dependence of Twinning Pseudoelasticity in Fe_3Ga Single Crystals
- The PCR-invader method (structure-specific 5' nuclease-based method), a sensitive method for detecting EGFR gene mutations in lung cancer specimens ; comparison with direct sequencing
- 転位の動的振る舞いと金属間化合物の力学特性
- Effect of Ni Doping on Strength and Damping Capacity of Fe–Al Alloys
- Effects of Ga Concentration, Heat Treatment and Deformation Temperature on Pseudoelasticity of Fe-Ga Polycrystals