拘束強せん断変形法による結晶粒の超微細化機構の解析

Research Project

Project/Area Number	09228222
Research Category	Grant-in-Aid for Scientific Research on Priority Areas
Allocation Type	Single-year Grants
Research Institution	Kyushu University
Principal Investigator	根本實九州大学, 工学部, 教授 (90005265)
Co-Investigator(Kenkyū-buntansha)	大石敬一郎九州大学, 工学部, 助手 (70294890) 堀田善治九州大学, 工学部, 助教授 (20173643)
Project Period (FY)	1997
Project Status	Completed (Fiscal Year 1997)
Budget Amount *help	¥2,300,000 (Direct Cost: ¥2,300,000) Fiscal Year 1997: ¥2,300,000 (Direct Cost: ¥2,300,000)
Keywords	超塑性 / ECAP / ECAE / 微細粒 / TEM / Al合金 / 高速超塑性 / 再結晶
Research Abstract	拘束条件下で材料に強ひずみを加えるECAP(Equal Channel Angular Pressing)法によれば材料の大きさは加工の前後で変わらず,酸化などの汚染もなく,孔のないバルク状態の超微細結晶粒材料が得られる.プロセスはきわめて単純で,適用できる材料に原理的に制約がなく,従来の材料特性を飛躍的に向上できる可能性がある.繰り返しプレス中材料の挿入方向の仕方によりいろいろなせん断変形を合成することができる.まず,このせん断変形をモデル実験により明らかにし,塑性変形組織を設計できることを示した.つぎに,いろいろなrouteでプレスした純Alについて歪の各段階での組織を光学顕微鏡および電子顕微鏡で解析した結果,モデル実験とよい一致が得られ,同時に結晶粒の微細化は動的再結晶により起こること,せん断方向の組み合わせにより結晶粒界における傾角変化の速さが異なり,結晶粒の微細化には繰り返しせん断を三次元的に組み合わせることが最も有効であることが明らかとなった.この結果を基に,超塑性特性発現のための基本条件,すなわち,微細粒,固溶強化,組織の熱的安定性を考慮してAl-Mg-Sc合金をECAP処理した結果,きわめて優れた超塑性特性が発現し,ECAP法が超塑性材料の組織設計にきわめて有効であることが明らかとなった.

Report

(1 results)

1997 Annual Research Report

Research Products

(6 results)

All Other

All Publications (6 results)

[Publications] Furukawa,M.: "Structural Evolution and the Hall-Petch Relationship in an Al-Mg-Li-Zr Alloy with Ultra-Fine Grain Size" Acta Materialia. 45・11. 4751-4757 (1997)
- Related Report
  1997 Annual Research Report
[Publications] Y.Iwahashi: "An Investigation of Microstructural Evolution during Equal-Channel Angular Pressing" Acta Materialia. 45・11. 4733-4741 (1997)
- Related Report
  1997 Annual Research Report
[Publications] M.Furukawa: "Production of Ultrafine-Grained Metallic Materials Using an Intense Plastic Straining Technique" Materials Science Forum. 233-234. 177-184 (1997)
- Related Report
  1997 Annual Research Report
[Publications] M.Furukawa: "Microstructural Characteristics of an Ultrofine Grain Metal Processed with Equal-Channel Angular Pressing" Materials Characterization. 37-2. 277-283 (1997)
- Related Report
  1997 Annual Research Report
[Publications] M.Furukawa: "Microstructural Characteristics and Superplastic Ductility in a Zn-2290Al Alloys with Submicrometer Grain size" Mater.Sci.and Eng.A241. 122-128 (1997)
- Related Report
  1997 Annual Research Report
[Publications] Z.Horita: "Processing of an Al-Mg-Li-Zr Alloy with Ultra-Fine Grain size" Materials Science Forum. 243-245. 239-244 (1997)
- Related Report
  1997 Annual Research Report

拘束強せん断変形法による結晶粒の超微細化機構の解析

Principal Investigator

根本 實 九州大学, 工学部, 教授 (90005265)

¥2,300,000 (Direct Cost: ¥2,300,000)

Report

Research Products

[Publications] Furukawa,M.: "Structural Evolution and the Hall-Petch Relationship in an Al-Mg-Li-Zr Alloy with Ultra-Fine Grain Size" Acta Materialia. 45・11. 4751-4757 (1997)

Related Report

[Publications] Y.Iwahashi: "An Investigation of Microstructural Evolution during Equal-Channel Angular Pressing" Acta Materialia. 45・11. 4733-4741 (1997)

Related Report

[Publications] M.Furukawa: "Production of Ultrafine-Grained Metallic Materials Using an Intense Plastic Straining Technique" Materials Science Forum. 233-234. 177-184 (1997)

Related Report

[Publications] M.Furukawa: "Microstructural Characteristics of an Ultrofine Grain Metal Processed with Equal-Channel Angular Pressing" Materials Characterization. 37-2. 277-283 (1997)

Related Report

[Publications] M.Furukawa: "Microstructural Characteristics and Superplastic Ductility in a Zn-2290Al Alloys with Submicrometer Grain size" Mater.Sci.and Eng.A241. 122-128 (1997)

Related Report

[Publications] Z.Horita: "Processing of an Al-Mg-Li-Zr Alloy with Ultra-Fine Grain size" Materials Science Forum. 243-245. 239-244 (1997)

Related Report

根本實九州大学, 工学部, 教授 (90005265)