Evolution of mechanical properties in a 7075 Al-alloy subject to natural ageing
► Comprehensive mechanical test programme. ► 7075 Aluminium alloy solution heat treated and naturally aged up to 120min. ► Evolution of anisotropy following the solution heat treatment of 7075-O aluminium. ► Constant r-values and near linear increase in yield strength during natural ageing. ► Propos...
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| Published in | Materials in engineering Vol. 49; pp. 160 - 167 |
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| Main Authors | , , , , |
| Format | Journal Article |
| Language | English |
| Published |
Elsevier Ltd
01.08.2013
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| Abstract | ► Comprehensive mechanical test programme. ► 7075 Aluminium alloy solution heat treated and naturally aged up to 120min. ► Evolution of anisotropy following the solution heat treatment of 7075-O aluminium. ► Constant r-values and near linear increase in yield strength during natural ageing. ► Proposed semi empirical functions for interpolation of the experimental data set.
A series of mechanical tests was used to characterise the evolution of yield strengths, r-values and work hardening during the natural ageing of a commercial 7075 aluminium alloy. The results show that there is a significant underlying change in anisotropy between the original O-condition and solution heat treated tempers. In the absence of recrystallisation, the abrupt change in anisotropy appears to have been caused by the modification of the precipitate during the solution heat treatment. The degree of induced anisotropy remained constant throughout the natural ageing process from 15 to 120min. A series of phenomenological functions is presented for the purpose of interpolation between the original test data points. These empirical functions are shown to predict the yield behaviour of the naturally aged material within the observed experimental scatter. |
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| AbstractList | ► Comprehensive mechanical test programme. ► 7075 Aluminium alloy solution heat treated and naturally aged up to 120min. ► Evolution of anisotropy following the solution heat treatment of 7075-O aluminium. ► Constant r-values and near linear increase in yield strength during natural ageing. ► Proposed semi empirical functions for interpolation of the experimental data set.
A series of mechanical tests was used to characterise the evolution of yield strengths, r-values and work hardening during the natural ageing of a commercial 7075 aluminium alloy. The results show that there is a significant underlying change in anisotropy between the original O-condition and solution heat treated tempers. In the absence of recrystallisation, the abrupt change in anisotropy appears to have been caused by the modification of the precipitate during the solution heat treatment. The degree of induced anisotropy remained constant throughout the natural ageing process from 15 to 120min. A series of phenomenological functions is presented for the purpose of interpolation between the original test data points. These empirical functions are shown to predict the yield behaviour of the naturally aged material within the observed experimental scatter. A series of mechanical tests was used to characterise the evolution of yield strengths, r-values and work hardening during the natural ageing of a commercial 7075 aluminium alloy. The results show that there is a significant underlying change in anisotropy between the original O-condition and solution heat treated tempers. In the absence of recrystallisation, the abrupt change in anisotropy appears to have been caused by the modification of the precipitate during the solution heat treatment. The degree of induced anisotropy remained constant throughout the natural ageing process from 15 to 120min. A series of phenomenological functions is presented for the purpose of interpolation between the original test data points. These empirical functions are shown to predict the yield behaviour of the naturally aged material within the observed experimental scatter. |
| Author | Brown, Desmond Lademo, Odd-Geir Deering, Alan Leacock, Alan G. Howe, Conrad |
| Author_xml | – sequence: 1 givenname: Alan G. surname: Leacock fullname: Leacock, Alan G. email: ag.leacock@ulster.ac.uk organization: Advanced Metal Forming Research (AMFoR) Group, University of Ulster, Shore Road, Newtownabbey BT370QB, Northern Ireland, United Kingdom – sequence: 2 givenname: Conrad surname: Howe fullname: Howe, Conrad organization: Advanced Metal Forming Research (AMFoR) Group, University of Ulster, Shore Road, Newtownabbey BT370QB, Northern Ireland, United Kingdom – sequence: 3 givenname: Desmond surname: Brown fullname: Brown, Desmond organization: Advanced Metal Forming Research (AMFoR) Group, University of Ulster, Shore Road, Newtownabbey BT370QB, Northern Ireland, United Kingdom – sequence: 4 givenname: Odd-Geir surname: Lademo fullname: Lademo, Odd-Geir organization: SINTEF Materials and Chemistry and Structural Impact Laboratory (SIMLab), NTNU Trondheim, Norway – sequence: 5 givenname: Alan surname: Deering fullname: Deering, Alan organization: 1 Kilbright Road North, Newtownards BT222HF, Northern Ireland, United Kingdom |
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| Snippet | ► Comprehensive mechanical test programme. ► 7075 Aluminium alloy solution heat treated and naturally aged up to 120min. ► Evolution of anisotropy following... A series of mechanical tests was used to characterise the evolution of yield strengths, r-values and work hardening during the natural ageing of a commercial... |
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| SubjectTerms | Age hardening Aging Aluminium alloys Aluminum Aluminum base alloys Anisotropy Constants Data points Evolution Mechanical characterisation Precipitates Recrystallization Sheet forming |
| Title | Evolution of mechanical properties in a 7075 Al-alloy subject to natural ageing |
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