超微細結晶粒を持つAl-Mg-Sc合金の繰り返し変形における転位組織図の構築

Research Project

Project/Area Number	15760489
Research Category	Grant-in-Aid for Young Scientists (B)
Allocation Type	Single-year Grants
Research Field	Physical properties of metals
Research Institution	Kanazawa University
Principal Investigator	渡邊千尋金沢大学, 自然科学研究科, 助手 (60345600)
Project Period (FY)	2003 – 2004
Project Status	Completed (Fiscal Year 2004)
Budget Amount *help	¥3,200,000 (Direct Cost: ¥3,200,000) Fiscal Year 2004: ¥500,000 (Direct Cost: ¥500,000) Fiscal Year 2003: ¥2,700,000 (Direct Cost: ¥2,700,000)
Keywords	Equal Channel Angular Prossing / 超微細結晶粒 / 繰り返し変形 / 転移組織 / Al-Mg-Sc合金 / Al_3Sc折出物 / Equal Channel Angular Pressing(ECAP) / 超微細結晶粒材料 / 回復・再結晶 / 熱的安定性 / 転位組織
Research Abstract	本研究ではAl-Mg-Sc合金を用いて,第二相析出物を含む超微細結晶粒材料の疲労挙動と転位組織の関係を明らかにしようとした研究であり,平成16年度はAl-1mass%Mg-0.27mass%Sc合金のECAP後の試料における,焼鈍に伴う機械的特性の変化特に高サイクル疲労挙動について調査を行った. 1.ECAP後の試料(ECAP材)は降伏応力・引張強さ(303,333MPa)は高いが,降伏後直ちにネッキングを生じ応力低下を引き起こし早期破断(破断伸び:8.5%)に至る. 2.ECAP後試料に350℃に置いて15分,1時間の焼鈍を施した試料では,降伏応力と引張強さは低下するが,均一伸び・破断伸びは改善した. 3.降伏応力の30%〜60%の一定応力振幅下での高サイクル疲労寿命はECAP材が一番短く,焼鈍を施すことで2倍以上の疲労寿命の改善が見られた. 4.ECAP材では繰り返し変形中に動的回復・再結晶により結晶粒径が200nmから1μm以上へと粗大化している箇所が観察され,このような箇所で変形の局在化が起こるため疲労寿命が短くなると理解できる. 5.一方,両焼鈍材では結晶粒内・粒界に析出したAl_3Sc析出物により,ECAP材に見られたような動的回復・再結晶は抑止される.その結果,変形の局在化は生じず変形は均一となり,疲労寿命が改善する. また,ECAP加工を施していない通常の材料に時効熱処理を施し,ECAP材と同じ程度の析出物サイズを持つ試料を作成し同様な試験を行い,Al_3Sc析出粒子の分散状況の変化に伴う,繰り返し変形挙動と内部転位組織の変化の調査も行った.その結果,Al_3Sc析出粒子が小さいとき(4〜5nm程度)は運動転位による粒子のせん断が起こり,疲労軟化が起こること,一方大きいときには変形は均一となり,疲労軟化現象が生じないことを明らかにした.

Report

(2 results)

2004 Annual Research Report
2003 Annual Research Report

Research Products
(8 results)

All 2005 2004 Other

All Journal Article (6 results) Publications (2 results)

[Journal Article] Al-Mg-Sc合金におけるAl_3Sc粒子のオストワルド成長2005
- Author(s)
  渡部大然, 渡邊千尋, 門前亮一, 田崎和江
- Journal Title
  
  軽金属 55・4(印刷中)
- NAID
  10015504844
- Related Report
  2004 Annual Research Report
[Journal Article] Coarsening of Al_3Sc precipitate particles in an Al-0.28 wt pct Sc alloy2004
- Author(s)
  C.Watanabe, K.Kondo, R.Monzen
- Journal Title
  
  Metallurgical and Materials Transactions A 35A
  
  Pages: 3003-3009
- Related Report
  2004 Annual Research Report
[Journal Article] Low-cycle fatigue behavior and dislocation structure of an Al-Mg-Sc alloy2004
- Author(s)
  C.Watanabe, C.Y.Jin, R.Monzen, K.Kitagawa
- Journal Title
  
  Materials Science and Engineering A 387-389
  
  Pages: 552-555
- Related Report
  2004 Annual Research Report
[Journal Article] Microstructure evolution of an ultra fine-grained Al-Mg-Sc alloy during annealing2004
- Author(s)
  C.Watanabe, Y.Taniguchi, R.Monzen, K.Tazaki
- Journal Title
  
  Proceedings of 8^<th> Asia-Pacific Conference on Electron Microscopy(Kanazawa, Japan)
  
  Pages: 775-776
- Related Report
  2004 Annual Research Report
[Journal Article] Low-cycle fatigue behavior in an Al-1wt% Mg-0.27wt% Sc alloy2004
- Author(s)
  C.Watanabe, R.Monzen, K.Higashimine, K.Tazaki
- Journal Title
  
  Proceedings of 8^<th> Asia-Pacific Conference on Electron Microscopy(Kanazawa, Japan)
  
  Pages: 815-816
- Related Report
  2004 Annual Research Report
[Journal Article] Ostwald ripening of Al_3Sc precipitates in an Al-Sc alloy2004
- Author(s)
  D.Watanabe, C.Watanabe, R.Monzen, K.Tazaki
- Journal Title
  
  Proceedings of 8^<th> Asia-Pacific Conference on Electron Microscopy(Kanazawa, Japan)
  
  Pages: 819-821
- Related Report
  2004 Annual Research Report
[Publications] D.Watanabe, C.Watanabe, R.Monzen, K.Tazaki: "Coarsening of Al_3Sc precipitates in an Al-Sc alloy"8th Asia-Pacific Conference on Electron Microscopy proceedings. (in press).
- Related Report
  2003 Annual Research Report
[Publications] C.Watanabe, Y.Taniguchi, R.Monzen, K.Tazaki: "Microstructure evolution of an ultrafine-grained Al-Mg-Sc alloy during annealing"8th Asia-Pacific Conference on Electron Microscopy proceedings. (in press).
- Related Report
  2003 Annual Research Report

超微細結晶粒を持つAl-Mg-Sc合金の繰り返し変形における転位組織図の構築

Principal Investigator

渡邊 千尋 金沢大学, 自然科学研究科, 助手 (60345600)

¥3,200,000 (Direct Cost: ¥3,200,000)

Report

Research Products

[Journal Article] Al-Mg-Sc合金におけるAl_3Sc粒子のオストワルド成長2005

Author(s)

Journal Title

NAID

Related Report

[Journal Article] Coarsening of Al_3Sc precipitate particles in an Al-0.28 wt pct Sc alloy2004

Author(s)

Journal Title

Related Report

[Journal Article] Low-cycle fatigue behavior and dislocation structure of an Al-Mg-Sc alloy2004

Author(s)

Journal Title

Related Report

[Journal Article] Microstructure evolution of an ultra fine-grained Al-Mg-Sc alloy during annealing2004

Author(s)

Journal Title

Related Report

[Journal Article] Low-cycle fatigue behavior in an Al-1wt% Mg-0.27wt% Sc alloy2004

Author(s)

Journal Title

Related Report

[Journal Article] Ostwald ripening of Al_3Sc precipitates in an Al-Sc alloy2004

Author(s)

Journal Title

Related Report

[Publications] D.Watanabe, C.Watanabe, R.Monzen, K.Tazaki: "Coarsening of Al_3Sc precipitates in an Al-Sc alloy"8th Asia-Pacific Conference on Electron Microscopy proceedings. (in press).

Related Report

[Publications] C.Watanabe, Y.Taniguchi, R.Monzen, K.Tazaki: "Microstructure evolution of an ultrafine-grained Al-Mg-Sc alloy during annealing"8th Asia-Pacific Conference on Electron Microscopy proceedings. (in press).

Related Report

渡邊千尋金沢大学, 自然科学研究科, 助手 (60345600)