Developing a design principle of high strength/high ductility age-hardenable Aluminum alloys based hierarchical structure by controlling nano-scale structural components

Developing a design principle of high strength/high ductility age-hardenable Aluminum alloys based hierarchical structure by controlling nano-scale structural components

KAKEN

Kenji Matsuda

Principal Investigator

富山大学
布村紀男

Co-Investigator

富山大学
西村克彦

Co-Investigator

富山大学
村山光宏

Co-Investigator

九州大学

About This Project

Japan Grant Number: JP20H02479 (JGN)

Funding Program: Grants-in-Aid for Scientific Research

Funding Organization: Japan Society for the Promotion of Science

Kakenhi Information

Project/Area Number: 20H02479

Research Category: Grant-in-Aid for Scientific Research (B)

Allocation Type

Single-year Grants

Review Section / Research Field

Basic Section 26050:Material processing and microstructure control-related

Research Institution

University of Toyama

Project Period (FY): 2020-04-01 〜 2023-03-31

Project Status: Completed

Budget Amount*help: 17,940,000 Yen (Direct Cost: 13,800,000 Yen Indirect Cost: 4,140,000 Yen)

Research Abstract

本研究では従来の時効析出型アルミニウム合金に異相界面/粒界・構造欠陥を高密度に導入し組織を複相/階層化することで転位の運動を制御し、塑性変形機構を変化させ、高強度・高延性を実現する微細組織を得るための設計指針を探索する。従来、不純物元素と考えられてきた遷移金属元素添加や結晶粒微細化手法による微細組織制御および延性に優れた第二相との複相化等を通じて、希土類元素などの高価かつリサイクル性を損ねる元素添加を用いず塑性変形機構を制御し得る軽量構造材料の組成及びナノ・ミクロ組織設計概念を追求する。

Developing a design principle of high strength/high ductility age-hardenable Aluminum alloys based hierarchical structure by controlling nano-scale structural components

About This Project

Kakenhi Information

Research Abstract

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