Low-energy intergranular fracture in Al-Li alloys
Low-energy intergranular fracture in Al-Li alloys
An age-hardened Al–Li–Cu–Mg–Zr alloy (AA8090) used for a substantial part of the structure of a helicopter (in order to save weight) exhibited low-energy intergranular fracture during accidents, resulting in extensive damage. With this experience in mind, various hypotheses for brittle intergranular fracture in Al–Li alloys are reviewed, and possible remedial measures outlined. The effects of variables such as alloy composition, ageing times and temperatures, crystallographic texture, and test temperature on brittle-intergranular-fracture resistance are described, and it is concluded that lithium segregation to grain boundaries is primarily responsible for brittle intergranular fracture. Lithium segregation occurs mainly during the primary ageing treatment; but secondary ageing during service, where temperatures can reach 50–80°C, could increase lithium segregation and further increase susceptibility to brittle intergranular fracture. The evidence also suggests that the prevalence of a planar-slip-mode in Al–Li alloys, resulting in dislocation pile-ups at grain boundaries, is not responsible for brittle intergranular fracture, contrary to widespread opinion.
aluminium-lithium alloys, grain-boundary segregation, intergranular fracture, slip-mode, thermal stability
166-178
Pasang, T.
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Symonds, N.
cc8585b0-89f5-471c-84fd-969176516829
Moutsos, S.
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Wanhill, R.J.H.
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Lynch, S.P.
6d8601e9-89d8-4949-84ad-c798d7d75283
June 2012
Pasang, T.
2e407d4b-8367-42a8-bbda-25923fa1b405
Symonds, N.
cc8585b0-89f5-471c-84fd-969176516829
Moutsos, S.
64e93b7f-a374-42e9-8157-83f858543208
Wanhill, R.J.H.
2966e388-18fc-4326-8576-f268c64def55
Lynch, S.P.
6d8601e9-89d8-4949-84ad-c798d7d75283
Pasang, T., Symonds, N., Moutsos, S., Wanhill, R.J.H. and Lynch, S.P.
(2012)
Low-energy intergranular fracture in Al-Li alloys.
Engineering Failure Analysis, 22, .
(doi:10.1016/j.engfailanal.2012.01.006).
Abstract
An age-hardened Al–Li–Cu–Mg–Zr alloy (AA8090) used for a substantial part of the structure of a helicopter (in order to save weight) exhibited low-energy intergranular fracture during accidents, resulting in extensive damage. With this experience in mind, various hypotheses for brittle intergranular fracture in Al–Li alloys are reviewed, and possible remedial measures outlined. The effects of variables such as alloy composition, ageing times and temperatures, crystallographic texture, and test temperature on brittle-intergranular-fracture resistance are described, and it is concluded that lithium segregation to grain boundaries is primarily responsible for brittle intergranular fracture. Lithium segregation occurs mainly during the primary ageing treatment; but secondary ageing during service, where temperatures can reach 50–80°C, could increase lithium segregation and further increase susceptibility to brittle intergranular fracture. The evidence also suggests that the prevalence of a planar-slip-mode in Al–Li alloys, resulting in dislocation pile-ups at grain boundaries, is not responsible for brittle intergranular fracture, contrary to widespread opinion.
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Published date: June 2012
Keywords:
aluminium-lithium alloys, grain-boundary segregation, intergranular fracture, slip-mode, thermal stability
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nCATS Group
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Local EPrints ID: 363248
URI: http://eprints.soton.ac.uk/id/eprint/363248
ISSN: 1350-6307
PURE UUID: 6080bf3b-eaae-4b36-b303-0c85ac0240bf
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Date deposited: 24 Mar 2014 10:29
Last modified: 14 Mar 2024 16:21
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Author:
T. Pasang
Author:
S. Moutsos
Author:
R.J.H. Wanhill
Author:
S.P. Lynch
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