Numerical and Experimental Investigation of the Influence of Growth Restriction on Grain Size in Binary Cu Alloys
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Authors
Organisational units
External Organisational units
- Materials Center Leoben Forschungs GmbH
- Austrian Foundry Research Institute
Abstract
Grain refinement by elemental addition has been extensively investigated within the last decades in Al or Mg alloys. In contrast, in the Cu system, the role of solute on grain size is less investigated. In this study, the grain refinement potency of several alloying elements of the Cu system was examined. To predict grain size depending on the growth restriction factor Q, grain size modelling was performed. The results obtained by the grain size model were compared to variations in the grain size of binary Cu alloys with increasing solute content under defined cooling conditions of the TP-1 grain refiner test of the Aluminium Association©. It was found that the experimental results differed significantly from the predicted grain size values for several alloying elements. A decreasing grain size with increasing alloy concentration was observed independently of the growth restriction potency of the alloying elements. Furthermore, excessive grain coarsening was found for several solutes beyond a transition point. It is assumed that contradictory variations in grain size result from a change in the nucleating particle density of the melt. Significant decreases in grain size are supposed to be due to the in-situ formation of potent nucleation sites. Excessive grain coarsening with increasing solute content may occur due to the removal of nucleating particles. The model shows that the difference in the actual number of particles before and beyond the transition point must be in the range of several orders of magnitude.
Details
Original language | English |
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Article number | 383 |
Number of pages | 16 |
Journal | Metals : open access journal |
Volume | 7.2017 |
Issue number | 9 |
DOIs | |
Publication status | Published - 20 Sept 2017 |