The Effects of Natural Pre-Ageing Time on T6 Peak Hardness of R-HPDC 6xxx Series Alloys

Pfarelo Daswa; Heinrich Möller; Gonasagren Govender

doi:10.4028/www.scientific.net/AMR.1019.55

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The Effects of Natural Pre-Ageing Time on T6 Peak Hardness of R-HPDC 6xxx Series Alloys

Abstract:

This paper investigates the influence of natural pre-ageing time on T6 peak hardness of rheo-high pressure die cast (R-HPDC) 6xxx series aluminium alloys. Natural pre-ageing has a negative effect on the 6xxx series Al-Mg-Si alloys that contain higher quantities of Mg₂Si (typically > 0.90%). However, a positive effect is observed in alloys with lower quantities of Mg₂Si. The negative effect can be attributed to the clustering of solute atoms that form at room temperature because the precipitates which develop directly from clusters formed at room temperature are coarser than those developed in alloys artificially aged immediately after quenching. The opposite occurs in alloys where a positive effect of natural pre-ageing is found. The effects of the duration of natural pre-ageing on the subsequent T6 properties are of importance. In this study the T6 (190^oC-4h) hardness values of various R-HPDC 6xxx series alloys were determined after natural pre-ageing times ranging from 0h to 3240 hours. Alloys that show either the positive or the negative effect of natural pre-ageing are used. This paper also compares the influence of natural pre-ageing time on Cu-containing and Cu-free alloys. The addition of copper to the 6xxx series aluminium alloys lessens the negative effect of natural pre-ageing in the higher strength alloys.

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Periodical:

Advanced Materials Research (Volume 1019)

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55-60

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https://doi.org/10.4028/www.scientific.net/AMR.1019.55

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Online since:

October 2014

Authors:

Pfarelo Daswa*, Heinrich Möller, Gonasagren Govender

Keywords:

Artificial Ageing, Natural Pre-Ageing, Precipitate, Rheo-High Pressure Die Cast, T6 Peak Hardness

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