Utilizing Synchrotron Radiation for Phase Identification in Mg Alloys
Research output: Contributions to collected editions/works › Article in conference proceedings › Research › peer-review
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TMS 2025 154th Annual Meeting and Exhibition Supplemental Proceedings. Springer Science and Business Media Deutschland GmbH, 2025. p. 1587-1599 (Minerals, Metals and Materials Series).
Research output: Contributions to collected editions/works › Article in conference proceedings › Research › peer-review
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TY - CHAP
T1 - Utilizing Synchrotron Radiation for Phase Identification in Mg Alloys
AU - Szakács, G.
AU - Tolnai, D.
AU - Wiese, Björn
AU - Hort, Norbert
N1 - Publisher Copyright: © The Minerals, Metals & Materials Society 2025.
PY - 2025
Y1 - 2025
N2 - The property profile of modern alloys is determined by their microstructure, based on the chemical composition; the morphology, distribution and quantity of the phases; and the process history of the material. Melting, casting, and solidification are the starting points in classical alloy production. At known composition, phase diagrams can help to predict the phases present as a function of temperature under equilibrium conditions. However, during melting, alloying, casting, and solidification, equilibrium conditions are rarely encountered. Similar can be said about heat treatments and wrought processing. It can therefore be helpful to take a closer look at these dynamic processes to optimize processing steps and properties. In situ investigations using synchrotron radiation focusing on the solidification behavior of magnesium alloys clearly show the influence of solidification parameters on the formation and transformation of stable and metastable phases. This information can contribute to validate and/or to improve phase diagrams and suited predictions.
AB - The property profile of modern alloys is determined by their microstructure, based on the chemical composition; the morphology, distribution and quantity of the phases; and the process history of the material. Melting, casting, and solidification are the starting points in classical alloy production. At known composition, phase diagrams can help to predict the phases present as a function of temperature under equilibrium conditions. However, during melting, alloying, casting, and solidification, equilibrium conditions are rarely encountered. Similar can be said about heat treatments and wrought processing. It can therefore be helpful to take a closer look at these dynamic processes to optimize processing steps and properties. In situ investigations using synchrotron radiation focusing on the solidification behavior of magnesium alloys clearly show the influence of solidification parameters on the formation and transformation of stable and metastable phases. This information can contribute to validate and/or to improve phase diagrams and suited predictions.
KW - In situ
KW - Mg alloy
KW - Phase formation
KW - Solidification
KW - Synchrotron radiation diffraction
KW - Engineering
UR - http://www.scopus.com/inward/record.url?scp=105003996115&partnerID=8YFLogxK
U2 - 10.1007/978-3-031-80748-0_139
DO - 10.1007/978-3-031-80748-0_139
M3 - Article in conference proceedings
AN - SCOPUS:105003996115
SN - 9783031807473
T3 - Minerals, Metals and Materials Series
SP - 1587
EP - 1599
BT - TMS 2025 154th Annual Meeting and Exhibition Supplemental Proceedings
PB - Springer Science and Business Media Deutschland GmbH
T2 - 154th Annual Meeting and Exhibition of The Minerals, Metals and Materials Society, TMS 2025
Y2 - 23 March 2025 through 27 March 2025
ER -