Review of the quench sensitivity of aluminium alloys: analysis of the kinetics and nature of quench-induced precipitation
Review of the quench sensitivity of aluminium alloys: analysis of the kinetics and nature of quench-induced precipitation
For aluminium alloys, precipitation strengthening is controlled by age-hardening heat treatments, including solution treatment, quenching, and ageing. In terms of technological applications, quenching is considered a critical step, because detrimental quench-induced precipitation must be avoided to exploit the full age-hardening potential of the alloy. The alloy therefore needs to be quenched faster than a critical cooling rate, but slow enough to avoid undesired distortion and residual stresses. These contrary requirements for quenching can only be aligned based on detailed knowledge of the kinetics of quench-induced precipitation. Until the beginning of the 21st century, the kinetics of relevant solid-solid phase transformations in aluminium alloys could only be estimated by ex-situ testing of different properties. Over the past ten years, significant progress has been achieved in this field of materials science, enabled by the development of highly sensitive differential scanning calorimetry (DSC) techniques. This review presents a comprehensive report on the solid-solid phase transformation kinetics in Al alloys covering precipitation and dissolution reactions during heating from different initial states, dissolution during solution annealing and to a vast extent quench-induced precipitation during continuous cooling over a dynamic cooling rate range of ten orders of magnitude. The kinetic analyses are complemented by sophisticated micro- and nano-structural analyses and continuous cooling precipitation (CCP) diagrams are derived. The measurement of enthalpies released by quench-induced precipitation as a function of the cooling rate also enables predictions of the quench sensitivities of Al alloys using physically-based models. Various alloys are compared, and general aspects of quench-induced precipitation in Al alloys are derived.
quench sensitivity, aluminium alloys;, DSC, kinetics, AlMgSi wrought alloys, AlZnMg wrought alloys
1-92
Milkereit, Benjamin
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Starink, Marco J.
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Rometsch, Paul A.
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Schick, Christoph
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Kessler, Olaf
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6 December 2019
Milkereit, Benjamin
2b55bc26-041b-4e10-bd14-cc7b4519e72e
Starink, Marco J.
fe61a323-4e0c-49c7-91f0-4450e1ec1e51
Rometsch, Paul A.
df532ebf-f075-4cc5-a671-d96ffbd06f95
Schick, Christoph
e1a9c560-a6a8-4836-b636-819a17746f5c
Kessler, Olaf
1a0b70aa-db69-4172-acce-8ee6529b9752
Milkereit, Benjamin, Starink, Marco J., Rometsch, Paul A., Schick, Christoph and Kessler, Olaf
(2019)
Review of the quench sensitivity of aluminium alloys: analysis of the kinetics and nature of quench-induced precipitation.
Materials, 12 (24), , [4083].
(doi:10.3390/ma12244083).
Abstract
For aluminium alloys, precipitation strengthening is controlled by age-hardening heat treatments, including solution treatment, quenching, and ageing. In terms of technological applications, quenching is considered a critical step, because detrimental quench-induced precipitation must be avoided to exploit the full age-hardening potential of the alloy. The alloy therefore needs to be quenched faster than a critical cooling rate, but slow enough to avoid undesired distortion and residual stresses. These contrary requirements for quenching can only be aligned based on detailed knowledge of the kinetics of quench-induced precipitation. Until the beginning of the 21st century, the kinetics of relevant solid-solid phase transformations in aluminium alloys could only be estimated by ex-situ testing of different properties. Over the past ten years, significant progress has been achieved in this field of materials science, enabled by the development of highly sensitive differential scanning calorimetry (DSC) techniques. This review presents a comprehensive report on the solid-solid phase transformation kinetics in Al alloys covering precipitation and dissolution reactions during heating from different initial states, dissolution during solution annealing and to a vast extent quench-induced precipitation during continuous cooling over a dynamic cooling rate range of ten orders of magnitude. The kinetic analyses are complemented by sophisticated micro- and nano-structural analyses and continuous cooling precipitation (CCP) diagrams are derived. The measurement of enthalpies released by quench-induced precipitation as a function of the cooling rate also enables predictions of the quench sensitivities of Al alloys using physically-based models. Various alloys are compared, and general aspects of quench-induced precipitation in Al alloys are derived.
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materials-12-04083
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Accepted/In Press date: 3 December 2019
Published date: 6 December 2019
Keywords:
quench sensitivity, aluminium alloys;, DSC, kinetics, AlMgSi wrought alloys, AlZnMg wrought alloys
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Local EPrints ID: 436474
URI: http://eprints.soton.ac.uk/id/eprint/436474
PURE UUID: dc27aa58-3bc8-4216-9ccc-ad59fb35285a
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Date deposited: 11 Dec 2019 17:30
Last modified: 16 Mar 2024 05:41
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Author:
Benjamin Milkereit
Author:
Paul A. Rometsch
Author:
Christoph Schick
Author:
Olaf Kessler
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