Finite Element Modeling and Mechanical Testing of Metal Composites Made by Composite Metal Foil Manufacturing

Butt, Javaid and Ghorabian, Mohammad and Mohaghegh, Vahaj and Shirvani, Hassan (2019) Finite Element Modeling and Mechanical Testing of Metal Composites Made by Composite Metal Foil Manufacturing. Journal of Manufacturing and Materials Processing, 3 (3). p. 81. ISSN 2504-4494

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Official URL: https://doi.org/10.3390/jmmp3030081

Abstract

Foils of aluminum 1050 H14 ½ hard temper and 99.9% copper with 500-micron thickness have been used to manufacture similar and dissimilar composites by composite metal foil manufacturing (CMFM). The metal foils are bonded to each other using a special 80% zinc and 20% aluminum by weight brazing paste. A 3D finite element model has been developed to numerically analyze the time required to heat the metal foils so that a strong bond can be developed by the paste. The numerical simulations run in ANSYS 19.1 have been validated through experiments and rectangular layered composite products have been developed for flexural testing. The flexural test results for layered Al and Al/Cu composites are compared with solid samples of Al 1050 and 99.9% pure copper made by subtractive method. The results show that the layered Al composite is 5.2% stronger whereas the Al/Cu sample is 11.5% stronger in resisting bending loads compared to a solid Al 1050 sample. A higher bend load indicates the presence of a strong intermetallic bond created by the brazing paste between the metal foils. Corrosion testing was also carried out on the composite samples to assess the effect of corrosion on flexural strength. The tests revealed that the composites made by CMFM are not affected by galvanic corrosion after 7 days of testing and the flexural loads remained consistent with composites that were not immersed in a solution of distilled water and NaCl.

Item Type: Journal Article
Keywords: composite metal foil manufacturing, laminated object manufacturing, brazing, three-point flexural test, metal composites, British standards
Faculty: Faculty of Science & Engineering
Depositing User: Lisa Blanshard
Date Deposited: 13 Nov 2019 09:54
Last Modified: 14 Nov 2019 16:07
URI: http://arro.anglia.ac.uk/id/eprint/704969

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