Title of article
Microstructural and mechanical characterization of electron beam welded Al-alloy 7020
Author/Authors
G. C، نويسنده , , am، نويسنده , , M. Koc، نويسنده , , ak، نويسنده ,
Issue Information
دوهفته نامه با شماره پیاپی سال 2007
Pages
8
From page
7154
To page
7161
Abstract
The electron beam (EB) welding process is
used to weld any metal that can be arc welded with equal or
superior weld quality. EB welding is carried out in a highpurity
vacuum environment, which results in freedom from
impurities such as oxides and nitrides. Thus, pore-free
joints can readily be achieved in metallic materials, such as
Al-alloys and Ti-alloys. However, autogenous EB welding
of some aluminium alloys leads to a significant strength
reduction (undermatching) in the fusion zone due to the
loss of strengthening phases. For such Al-alloys, the local
microstructure-property relationships should be established
to satisfy the service requirement of a welded component
with strength undermatching. Autogenous EB welding was
performed on 5 mm thick aluminium alloy 7020 plate.
Microstructural characterization of the weld metals was
made by optical and scanning electron microscopy.
Extensive microhardness measurements were conducted in
the weld regions of the joints which exhibited a hardness
loss in the fusion zone due to the loss of strengthening
phases. Tensile properties of the joints were determined by
testing flat transverse tensile specimens at room temperature
without machining the weld profiles. Furthermore,
elastic-plastic fracture toughness tests (CTOD) were
carried out on the base material and welded joints at room
temperature.
Journal title
Journal of Materials Science
Serial Year
2007
Journal title
Journal of Materials Science
Record number
833389
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