Influence of PVD Target Power on the Age Hardening Behaviour of Al-4Zr Micro Sheets

Roland von Bargen; Julien Kovac; Axel von Hehl; Andreas Mehner; Hans Werner Zoch

doi:10.4028/www.scientific.net/MSF.794-796.864

Paper Titles

Heat Treatment of Aluminum-Titanium-Compounds Made by Co-Extrusion and Friction Welding
p.839

Effect of Liquid Hot Isostatic Pressing on Structure and Mechanical Properties of an Aluminum Alloy
p.845

Mechanical Properties and Aging Behavior of Ultrafine Grained Al-Ag Alloy Fabricated by Accumulative Roll-Bonding
p.851

Improvement of Mechanical Properties by Two-Step Aging in Ultrafine Grained Al-Ag-Sc Alloy
p.857

Influence of PVD Target Power on the Age Hardening Behaviour of Al-4Zr Micro Sheets
p.864

Influence of Mg Content, Grain Size and Strain Rate on Mechanical Properties and DSA Behavior of Al-Mg Alloys Processed by ECAP and Annealing
p.870

The Structure Evolution of a 99.995 Percent High Purity Aluminum during Multi-Forging Process in Room Temperature
p.876

Structure Development and Deformation Behaviour of Pure Aluminium Processed by Constrained Groove Pressing
p.882

Effect of Cold Plastic Deformation on Mechanical Properties of Aluminum Alloy 2519 After Ageing
p.888

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Influence of PVD Target Power on the Age Hardening Behaviour of Al-4Zr Micro Sheets

Abstract:

High strength aluminium alloys with improved stability at elevated temperatures for micro components, which are needed e.g. in the automotive or the micro electronics industry, require new alloys and advanced production processes regarding primary shaping, heat treatment and cold forming. Their development is part of the Collaborative Research Centre 747 Micro Cold Forming of the German Research Foundation. Especially heat treatment is a necessary step in the manufacturing process chain to adjust the mechanical properties of semi-finished micro components to cold forming and finally the usage properties of aluminium micro components by precipitation hardening to increase the strength above the strain hardened level. Conventional casting techniques limit the dissolvable zirconium content in alloys to 0.28 mass-% due to Al₃Zr precipitation of higher contents during slow cooling. With physical vapour deposition (PVD) by magnetron sputtering at temperatures below 50 °C it is possible to achieve alloys with a highly oversaturated solid solution and up to 3.6 mass-% of zirconium. The target power of the plasma during the magnetron sputtering process has considerable impact on the mechanical properties of the deposited Al-Zr alloys. Therefore the age hardening response of different micro sheets is evaluated by ultra micro hardness measurements (UMH), transmission electron microscopy (TEM) and differential power scanning calorimetry (DPSC).