Effects of adding active elements to aluminum-based filler alloys on the bonding of 6061 aluminum alloy and alumina
Journal
Applied Sciences (Switzerland)
Journal Volume
11
Journal Issue
21
Date Issued
2021
Author(s)
Abstract
In this study, AA6061/AA6061 and AA6061/alumina were directly brazed with Al10.8Si10Cu, Al10Si10Cu4Ti and Al10Si10Cu4Ti0.1RE filler alloys at 530? C for 10 min without the use of flux. The addition of titanium and rare-earth elements into Al10.8Si10Cu alloy effectively improved the bonding shear strengths of AA6061/AA6061 and AA6061/alumina joints. The highest joint shear strengths were 61.1 and 19.2 MPa, respectively. The Al10.8Si10Cu filler alloy without titanium and rare-earth elements could not wet on the alumina and caused failure of the AA6061/alumina joint. The shear strengths of the AA6061/AA6061 and AA6061/alumina joints both strongly depended on the active element addition. Due to the high chemical activity of the rare-earth elements, they formed AlLa between the Al10Si10Cu4Ti0.1RE filler alloy and alumina. The addition of rare-earth elements into Al10Si10Cu4Ti filler alloy resulted in significant enhancement of the average bond strength of AA6061/alumina joints, from 8.0 to 14.8 MPa. ? 2021 by the authors. Licensee MDPI, Basel, Switzerland.
Subjects
Al-Si-Cu filler metal
Alumina
Aluminum alloy
Rare-earth elements
Titanium
Type
journal article