Fabrication and Tensile Property of Sandwich Panel with ADC12 Foam Core by Friction Stir Processing Route

Utsunomiya, Takao; Ishii, Nobuyuki; Hangai, Yoshihiko; Koyama, Satoshi; Kitahara, Soichiro; Kuwazuru, Osamu; Yoshikawa, Nobuhiro

doi:10.2320/jinstmet.j2013017

Cited by 3 publications

(1 citation statement)

References 19 publications

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“…Moreover, using this fabrication method, we succeeded in fabricating an AFS comprising an A1050 Al foam core and SPCC low-carbon steel face sheets 9,10) and an AFS comprising an ADC12 Al alloy foam core and dense Al face sheets. 11,12) In the fabrication of the AFS, a foaming process, in which two foamable precursors with one face sheet placed face to face in a die are heated and the Al foam core is formed by bonding two foaming precursors, has been used. However, in the Al foam core fabricated using this foaming process, insufficiently bonded regions such as cracklike pores sometimes appeared owing to the existence of an oxide film.…”

Section: Introductionmentioning

confidence: 99%

Fabrication of Aluminum Foam Core Sandwich Using Sandwich-Type Foamable Precursor with Two Face Sheets by Friction Stir Welding Route

2018

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An aluminum foam sandwich (AFS), which consists of an aluminum (Al) foam core and two dense metallic face sheets, is a lightweight component material with good energy and sound insulation properties. A fabrication method for AFSs that can simultaneously fabricate a foamable precursor and realize metallurgical bonding between the precursor and a dense metallic sheet was proposed using the friction stir welding (FSW) route. In this study, we produced a sandwich-type foamable precursor with two Al face sheets using the FSW route and, by foaming this precursor, an AFS was fabricated. Through X-ray computed tomography inspection of the AFS and observation by an electron probe microanalyzer, it was confirmed that no cracklike pores existed in the Al foam core and that only few pores generated by the foaming entered the Al face sheet. Moreover, static tensile tests of the AFS were carried out, and it was shown that the tensile strength of the Al foam core was not decreased by the existence of an oxide film and that the bonding strength of the interface between the Al foam core and the Al face sheet was higher than the tensile strength of the Al foam core.

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Section: Introductionmentioning

confidence: 99%

Fabrication of Aluminum Foam Core Sandwich Using Sandwich-Type Foamable Precursor with Two Face Sheets by Friction Stir Welding Route

2018

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Easy dismantling and separation of friction stir-welded steel and aluminum by foaming

Hangai

Masuda

Suzuki

et al. 2023

Int J Adv Manuf Technol

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Aluminum alloy foam core sandwich panels fabricated from die casting aluminum alloy by friction stir welding route

Hangai

Kamada

Utsunomiya

et al. 2014

Journal of Materials Processing Technology

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An aluminum foam sandwiches (AFSs) consisting of ADC12 Al-Si-Cu die casting aluminum alloy foam and ADC6 Al-Mg die casting aluminum alloy face plates were fabricated. Using ADC12 die casting plates containing large amounts of gases as the starting material of the foam, ADC12 foam can be fabricated without using a blowing agent. Using FSW, both the uniform dispersion of the segregated gases and pore stabilization powder in the ADC12 die casting plates used to fabricate a foamable ADC12 precursor and the bonding of the ADC12 precursor to the ADC6 plates can be simultaneously achieved. Namely, the AFS precursor is expected to be obtained in fewer processing steps. From the visual observation of the fabricated AFSs, no deformation of the ADC6 plates occurred and the ADC6 plates on both sides of the aluminum foam remained parallel. From the X-ray CT observation of the fabricated AFSs, good pore structures without the infiltration of ADC12 foam into the ADC6 plates can be obtained at a holding temperature of 948 K and holding times of t = 10 and 11 min. In tensile tests on the fabricated AFSs, fracture occurred in the ADC12 foam parts but no fractures were observed at the bonding interface between the ADC12 foam and the ADC6 plates, that is, good bonding was obtained between the ADC12 foam and the ADC6 plates.

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Fabrication and Tensile Property of Sandwich Panel with ADC12 Foam Core by Friction Stir Processing Route

Cited by 3 publications

References 19 publications

Fabrication of Aluminum Foam Core Sandwich Using Sandwich-Type Foamable Precursor with Two Face Sheets by Friction Stir Welding Route

Fabrication of Aluminum Foam Core Sandwich Using Sandwich-Type Foamable Precursor with Two Face Sheets by Friction Stir Welding Route

Easy dismantling and separation of friction stir-welded steel and aluminum by foaming

Aluminum alloy foam core sandwich panels fabricated from die casting aluminum alloy by friction stir welding route

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