Characterising precipitate evolution in high temperature cast aluminium alloys using synchrotron radiation

Panagos, Panagiotis

January 2016

Novel casting alloys that retain their mechanical strength at temperatures up to 300 °C are needed in order to improve automotive engine efficiency. The addition of Zr and V is a promising combination as a means of introducing the thermally stable cubic Al3ZrxV1-x nano-precipitates. In this project, the evolution of the Al3ZrxV1-x precipitates in multi-component cast aluminium alloys was characterised in a statistically significant way using small-angle X-ray scattering (SAXS). Unlike established metallurgical techniques, such as transmission electron microscopy (TEM), SAXS measures billions of precipitates in a single experiment. Two Al-6.8Si (wt.%) alloys were employed. One contained 0.30 wt.% Zr and 0.30 wt.% V and the other 0.37 wt.% Zr and 0.34 wt.% V. The alloys were cast and isothermally aged at 400 °C for times ranging from 3 to 50 h. Synchrotron SAXS was undertaken at the Diamond Light Source (DLS). Direct evaluation methods of SAXS spectrum were employed in order to extract information about the average precipitate size, precipitate size distribution and their evolution with ageing time. These results were compared with the results provided via TEM, both validating the methodology, and demonstrating the benefits and drawbacks of SAXS.From the SAXS analysis, the Guinier radius, Rg, was found to increase with ageing time from around 2 nm at 3 h to approximately 9 nm at 50 h. Precipitate volume fraction also increased from 0.11 vol.% to 0.24 vol.% for the lower solute alloy and from 0.14 vol.% to 0.33 vol.% for the higher solute one. In both alloys, the precipitate number density was observed to continuously decrease with ageing time. For the higher solute alloy, the average precipitate radius from the TEM measurements was found to be consistently smaller than Rg. Such a study is important because it extends the experimental SAXS methodology previously used only in simplified alloys to multi-component cast alloys of industrial importance. Moreover, the findings from this investigation suggest that both alloys quickly enter a stage where the precipitate growth and coarsening overlap, and the precipitate number density continuously decreases with time. Finally, this study underlines the importance of preliminary SAXS data treatment and provides an analytical guide in order to successfully characterize low volume fraction of precipitates in multi-component cast alloys.

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Heat treatment of Al-Si-Cu-Mg casting alloys

Sjölander, Emma

January 2011

Environmental savings can be made by increasing the use of aluminium alloys in the automotive industry as the vehicles can be made lighter. Increasing the knowledge about the heat treatment process is one task in the direction towards this goal. The aim of this work is to investigate and model the heat treatment process for Al-Si casting alloys. Three alloys containing Mg and/or Cu were cast using the gradient solidification technique to achieve three different coarsenesses of the microstructure and a low amount of defects. Solution treatment was studied by measuring the concentration of Mg, Cu and Si in the α-Al matrix using wavelength dispersive spectroscopy (WDS) after various times at a solution treatment temperature. A diffusion based model was developed which estimates the time needed to obtain a high and homogenous concentration of alloying elements for different alloys, temperatures and coarsenesses of the microstructure. It was shown that the yield strength after artificial ageing is weakly dependent on the coarseness of the microstructure when the solution treatment time is adjusted to achieve complete dissolution and homogenisation. The shape and position of ageing curves (yield strength versus ageing time) was investigated empirically in this work and by studying the literature in order to differentiate the mechanisms involved. A diffusion based model for prediction of the yield strength after different ageing times was developed for Al-Si-Mg alloys. The model was validated using data available in the literature. For Al-Si-Cu-Mg alloys further studies regarding the mechanisms involved need to be performed. Changes in the microstructure during a heat treatment process influence the plastic deformation behaviour. The Hollomon equation describes the plastic deformation of alloys containing shearable precipitates well, while the Ludwigson equation is needed when a supersaturated solid solution is present. When non-coherent precipitates are present, none of the equations describe the plastic deformation well. The evolution of the storage rate and recovery rate of dislocations was studied and coupled to the evolution of the microstructure using the Kocks-Mecking strain hardening theory.

Cast aluminium alloys

Heat treatment

Solution treatment

Artificial ageing

Tensile properties

Plastic deformation

Microstructure

Modelling

Ανάπτυξη μεθοδολογίας για την αξιολόγηση της ποιότητας των χυτών κραμάτων αλουμινίου για χρήση σε ελαφρές κατασκευές / Development of a methodology for the evaluation of the quality of cast aluminium alloys to be wed in light-weight structures

Αλεξόπουλος, Νικόλαος Διον.

25 June 2007

Ο χαρακτηρισμός της ποιότητας των χυτών κραμάτων αλουμινίου , γίνεται μέχρι σήμερα μέσω του χαρακτηρισμού της ποιότητας της μικροδομής, μετρήσεων σκληρότητας και πειραμάτων κρούσης και σε μικρότερο βαθμό, δοκιμών εκφυλισμού. Στην παρούσα διατριβή, προτείνεται ένας νέος εμπειρικός δείκτης για τον ποσοτικοποιημένο χαρακτηρισμό της ποιότητας χυτών κραμάτων αλουμινίου. Ο προτεινόμενος δείκτης αξιολογεί την ποιότητα ενός υλικού από την πλευρά του μηχανικού που σχεδιάζει ένα κατασκευαστικό στοιχείο και επομένως την αξιολογεί ως την ικανότητα του υλικού για μηχανικές επιδόσεις. Για την αξιολόγηση αυτή ο προτεινόμενος δείκτης συνεκτιμά την αντοχή και την ολκιμότητα του υλικού σε εκφυλισμό. Παράλληλα, για το χαρακτηρισμό της ποιότητας, ο δείκτης παίρνει υπόψη τη δυσθραυσότητα του υλικού καθώς και τη διασπορά των μηχανικών ιδιοτήτων του υλικού. Η διατύπωση του δείκτη στηρίχτηκε σε έναν ευρείας έκτασης πειραματικό χαρακτηρισμό της μηχανικής συμπεριφοράς σε εφελκυσμό καθώς και της μικροδομής των κυριότερων αεροπορικών χυτών κραμάτων αλουμινίου σε συνάρτηση με τη μεταβολή α) της χημικής σύστασης, β) του ρυθμού στερεοποίησης και γ) της θερμικής κατεργασίας αυτών καθώς και στη διατύπωση εμπειρικών συναρτήσεων για την εξάρτηση των μηχανικών ιδιοτήτων των κραμάτων που εξετάστηκαν από τις παραπάνω μεταβολές των παραμέτρων χύτευσης. Προκειμένου να διευκολυνθεί η αξιοποίηση του δείκτη, διατυπώθηκαν απλουστευμένες προσεγγιστικές εκφράσεις που επιτρέπουν τον υπολογισμό του από δεδομένα των απλών πειραμάτων της σκληρομέτρησης και της κρούσης. Τέλος προτάθηκε μεθοδολογία δημιουργίας χαρτών ποιότητας με βάση τον προταθέντα δείκτη για την υποστήριξη της επιλογής υλικού όταν είναι γνωστές οι απαιτήσεις σε μηχανικές επιδόσεις συγκεκριμένων κατασκευαστικών στοιχείων. / Quality evaluation of cast aluminum alloys is currently made mainly by means of the met- allographic characterization of the alloy’s niicrostructure, hardness measurements, impact tests and, to a lesser extend, tensile tests, are involved, as well. Yet, the overall decision is not a straight forward procedure, relies heavily on the experience of the quality engineer and involves an appreciable amount of subjective judgment. In the present Thesis, a new empirical quality index for the quantitative evaluation of the quality of cast aluminum alloys is introduced. The proposed index evaluates quality which is regarded as the ability of a material for mechanical performance. The index evaluates the quality of a cast alloy on the basis of a balance between the material’s tensile strength and ductility with regard also to the material’s toughness. In the proposed index the scatter in mechanical properties is also accounted. The formulation of the index has been based on an extensive experimental characterization of the tensile behavior and the microstructural features of the main aircraft aluminum cast alloys by varying chemical composition, solidification rate and artificial aging treat- ment. To facilitate the wide spread use of the index, simplified approximate expressions of the index have been formulated as well. These expressions allow for the calculation of the proposed quality index based on hardness measurements and impact test results. The index has been also exploited to devise quality maps, which may be used to support material selection with regard to the mechanical properties required by the design office for a certain application.

Δείκτης ποιότητας

Όριο διαρροής

Σκληρότητα

Κρούση

Τεχνητή γήρανση

Χημική σύσταση

624.182 6

Cast aluminium alloys

Quality index

Yield strength

Strain energy density

Hardness

Impact

Artificial aging

Chemical composition