Phase evolution in Mg alloys powders for Additive Manufacturing during solidification and heat treatments
The aim of the present proposal is fully characterized the crystalline structure and phases of AZ31 Mg alloy powders. These powders are the starting raw material, which will be further used in Additive Manufacturing for printing objects. After a complete characterization with ex situ microstructural studies (X-rays, SEM, EDX, TEM, and DSC), we want to carry out neutron diffraction (ND) experiments during in-situ experiment in D1B of melting and solidification of feedstock powders at different cooling rates, and then followed by annealing towards simulating their evolution during AM. Room temperature and in-situ neutron diffraction experiments will be carried out during the heating and cooling treatments at different heating/cooling rates. This proposal is submitted for the allocation of a beamline for the fulfilment of the scientific objectives set out in the postdoctoral project of Borja Pillado Ríos, currently under contract with the Institut Laue Langevin (ILL) since February 1st, in the framework of the Scientific Partner agreement between the Ministry of Science and Innovation (MCIN) and the Institu
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The recommended format for citing this dataset in a research publication is in the following format:
PILLADO RIOS Borja; CABEZA Sandra; GARCES Gerardo and PUENTE ORENCH Ines. (2023). Phase evolution in Mg alloys powders for Additive Manufacturing during solidification and heat treatments. Institut Laue-Langevin (ILL) doi:10.5291/ILL-DATA.1-01-200
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