Effect of thermal exposure on the strength and stress relaxation response of AA-7075-T6 material

Commercial AA-7075-T6 material was subjected to thermal exposure for 60 min in the temperature range 100–300 °C with an interval of 20 °C. There was no noticeable effect of exposure temperature on the yield stress, ultimate tensile stress, and fracture stress in the temperature range 100–200 °C. How...

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Bibliographic Details
Published in:Materials chemistry and physics 2021-09, Vol.270, p.124791, Article 124791
Main Authors: Butt, M.Z., Ullah, Samee, Khan, M. Rashid, Ahmad, Sajjad, Ilyas, Syed Zafar
Format: Article
Language:English
Subjects:
AA-7075-T6
Cross slip
Energy barrier
Exposure
Initial stresses
Precipitates
Process parameters
Rate process
Strain
Strength
Stress relaxation
Tensile stress
Thermal exposure
Yield stress
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Summary:Commercial AA-7075-T6 material was subjected to thermal exposure for 60 min in the temperature range 100–300 °C with an interval of 20 °C. There was no noticeable effect of exposure temperature on the yield stress, ultimate tensile stress, and fracture stress in the temperature range 100–200 °C. However, each strength parameter decreased rapidly with the increase in exposure temperature from 200 to 300 °C. This behavior was accounted for in terms of dislocation glide by Orowan mechanism in an atmosphere of semi-coherent ή precipitates (MgZn2) in the main matrix. Stress relaxation at a fixed strain for 1000 s was recorded at various stress levels over the entire stress – strain curve of a given AA-7075-T6 specimen. The stress relaxation rate s increased linearly with the strain εo at which initial stress σo was allowed to relax in the specimen. The stress relaxation parameter (ds/dεo) varied with exposure temperature in a manner similar to that of the strength parameters. The rate process of stress relaxation in the low-strain region was precipitate – dislocation interaction whereas that in the high-strain region was recovery by cross-slip mechanism. [Display omitted] •AA-7075-T6 was thermally exposed for 60 min at 100–300 °C.•Strength parameters remained nearly invariant in the range 100–200 °C.•Strength parameters decreased rapidly with temperature rise from 200 to 300 °C.•Stress relaxation is controlled by precipitate-dislocation interaction at low-strains.•Stress relaxation is controlled by recovery due to cross-slip at high-strains.
ISSN:0254-0584
1879-3312
DOI:10.1016/j.matchemphys.2021.124791