Strength Prediction for Clinch-Bonding of Advanced High Strength Steel and Aluminum Alloy
高張力鋼板とアルミニウム合金板の接着・クリンチング接合強度の予測
- Delivery
- Available on this site
- Format
- Price
- Non-members (tax incl.):¥1,100 Members (tax incl.):¥880
- Publication code
- 20216244
- Paper/Info type
- Proceedings (Autumn)
No.135-21
- Pages
- 1-4(Total 4 p)
- Date of publication
- Oct 2021
- Publisher
- JSAE
- Language
- Japanese
- Event
- 2021 JSAE Annual Congress (Autumn) [Online]
Detailed Information
Author(J) | 1) 秋田 麗佳, 2) 馬 運五, 3) 安部 洋平, 4) 麻 寧緒, 5) 堤 成一郎, 6) 森 謙一郎 |
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Author(E) | 1) Reika Akita, 2) Yunwu Ma, 3) Yohei Abe, 4) Ninshu Ma, 5) Seiichiro Tsutsumi, 6) Ken-Ichiro Mori |
Affiliation(J) | 1) 伊藤忠テクノソリューションズ, 2) 大阪大学, 3) 豊橋技術科学大学, 4) 大阪大学, 5) 大阪大学, 6) 豊橋技術科学大学 |
Affiliation(E) | 1) ITOCHU Techno-Solutions, 2) Osaka University, 3) Toyohashi University of Technology, 4) Osaka University, 5) Osaka University, 6) Toyohashi University of Technology |
Abstract(J) | 本研究では,クリンチボンディングに着目し,接合強度の予測や接合工程のシミュレーション手法の検討を試みる.本稿では,高張力鋼板とアルミニウム合金板におけるクリンチングと接着剤のハイブリット接合の接着破壊のモデリングを紹介する. Translation |
Abstract(E) | The combination of adhesive bonding and mechanical clinching is a promising method for joining aluminum alloy and steel in the automotive industry. This study aims to establish an accurate numerical model for strength assessment of clinch-bonding hybrid joint. The predicted tensile-shear force-stroke curves by simulation exhibited a good agreement with experiments. Based on the established models, the effect of the clinching joint number on tensile-shear force and energy absorption of the clinch-bonding joints were investigated. |