Aluminum alloy composite and method for joining thereof
Abstract
The object of the present invention is to strongly join an aluminum alloy part with an FRP prepreg. An object obtained by subjecting an aluminum alloy to a suitable liquid treatment so as to form a surface having large, micron-order irregularities and also fine irregularities with a period of several tens of nanometers, eliminating the presence of sodium ions from the surface and additionally forming a surface film of aluminum oxide, which is thicker than a natural oxide layer, has been found to have a powerful adhesive strength with epoxy-based adhesives. By simultaneously curing an FRP prepreg which uses the same epoxy-based adhesive in the matrix, an integral composite or structure in which FRP and aluminum alloy have been united at a joining strength of unprecedented magnitude is produced.
Claims
exact text as granted — not AI-modifiedWhat is claimed is:
1 . An aluminum alloy composite comprising:
a first metal part made of a first aluminum alloy having a micron-order surface roughness formed by chemical etching on a surface thereof, the surface having thereon a thin layer of aluminum oxide with a thickness of at least 2 nm that is free of sodium ions and the surface roughness having formed therein an ultrafine irregular surface formed of depressions or projections having 10 to 100 nm diameter and substantially equal depth or height, and an adherent part joined to the first metal part with an epoxy-based adhesive that has penetrated into the ultrafine irregular surface; wherein said micron-order surface roughness has a mean peak spacing: RSm of 0.8 to 10 μm and a maximum height: Rz of 0.2 to 5.0 μm; wherein said adherent part is fiber-reinforced plastic which contains the epoxy-based adhesive and is filled, laminated and reinforced with at least one selected from among continuous fibers, short fibers and fiber cloth, wherein said epoxy-based adhesive in the cured form includes a total of between 0 and 100 parts by weight of filler per 100 parts by weight of the total resin components, and wherein the shear strength at break with said first metal part and said second metal part is 44 to 60 MPa.
2 . The aluminum alloy composite according to claim 1 , wherein the shear strength at break with said first metal part and said fiber-reinforced plastic as the adherent part is 50 to 60 MPa.
3 . The aluminum alloy composite of claim 1 , which is obtained by joining a plate part made of the aluminum alloy and a plate object of the fiber-reinforced plastic and has formed therein a throughhole for passing a bolt or rivet therethrough.Join the waitlist — get patent alerts
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