Effects of the scanning strategy on the microstructure and mechanical properties of a TiAl6V4 alloy produced by electron beam additive manufacturing

Autor:	Andrea Fornaci, Maurizio Romeo, Ausonio Tuissi, M. Riccio, Emanuele Ferrario, Jacopo Fiocchi, Carlo Alberto Biffi
Jazyk:	angličtina
Rok vydání:	2020
Předmět:	0209 industrial biotechnology Materials science Electron-beam additive manufacturing Additive manufacturing Mechanical Engineering Alloy Titanium alloy Mechanical properties 02 engineering and technology engineering.material Microstructure Industrial and Manufacturing Engineering Electron beam melting Computer Science Applications Surface Grain growth 020901 industrial engineering & automation Control and Systems Engineering Cathode ray engineering Relative density Composite material Anisotropy Software
Zdroj:	International journal, advanced manufacturing technology 107 (2020): 4913–4924. doi:10.1007/s00170-020-05358-y info:cnr-pdr/source/autori:Biffi C.A.; Fiocchi J.; Ferrario E.; Fornaci A.; Riccio M.; Romeo M.; Tuissi A./titolo:Effects of the scanning strategy on the microstructure and mechanical properties of a TiAl6V4 alloy produced by electron beam additive manufacturing/doi:10.1007%2Fs00170-020-05358-y/rivista:International journal, advanced manufacturing technology/anno:2020/pagina_da:4913/pagina_a:4924/intervallo_pagine:4913–4924/volume:107
DOI:	10.1007/s00170-020-05358-y
Popis:	Ti6Al4V specimens were produced using electron beam melting (EBM) with the goal of studying the effects of the scanning strategies on the surface morphology, microstructure, and mechanical properties. As the factory condition consists in the use of different parameters for scanning the hatch and the contour, additional processing conditions were investigated using the hatch and contour strategies separately, oriented from the center to the border, and vice versa. Due to material anisotropy, the samples were fabricated in both the vertical and planar directions. This work demonstrates that the scanning strategies affect several features of EBMed TiAl4V samples, like the relative density of the specimens, the surface morphology, and the microstructure and mechanical properties. In details, pure contour can increase the relative density, due to the use of pulses instead of continuous electron beam emission, while the hatch scanning produces smoother and more uniform surface morphology. As different thermal histories can be associated with the variation of the scanning strategy, the microstructure can be varied in terms of grain growth. Finally, the tensile behavior of the specimens, evaluated in both the principal orientations, can be correlated to the relative density and surface irregularity.
Databáze:	OpenAIRE
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