On thermal expansion behavior of invar alloy fabricated by modulated laser powder bed fusion

In the present research, structural analyses are conducted on Invar (64% Fe-36% Ni) samples manufactured by modulated laser powder bed fusion (LPBF) under different laser power regimes. Within the selected process window, the results obtained from X-ray computed tomography analysis indicate that the...

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Bibliographic Details
Published in:Materials & design 2018-12, Vol.160, p.895-905
Main Authors: Asgari, Hamed, Salarian, Mehrnaz, Ma, Henry, Olubamiji, Adeola, Vlasea, Mihaela
Format: Article
Language:English
Subjects:
Invar alloy
Laser powder bed fusion
Microstructure
Porosity
Thermal expansion
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Summary:In the present research, structural analyses are conducted on Invar (64% Fe-36% Ni) samples manufactured by modulated laser powder bed fusion (LPBF) under different laser power regimes. Within the selected process window, the results obtained from X-ray computed tomography analysis indicate that the relative density of as-built samples increases with an increase in laser power. In addition, it is observed that irregular-shaped pores with the longest axis normal to the building direction are significantly reduced with increasing the laser power. Microstructural investigation suggests that with increasing the laser power, a transformation from conduction to transition and keyhole modes occurs. In X-ray diffraction patterns of the as-built samples, only fcc γ-phase is detected and no reflection of bcc α-phase is found. Texture measurements show that the intensity of 〈110〉 crystallographic orientation along the building direction of the as-built samples increases with increasing laser power. Coefficient of thermal expansion of the as-built samples is very low and comparable to that of conventionally manufactured Invar alloy. Furthermore, as-built samples fabricated at lowest (250 W) and highest (400 W) laser powers exhibit the lowest and highest thermal expansion displacement, respectively. Finally, the thermal expansion behavior and its correlation with structural integrity and texture are discussed. [Display omitted] •Modulated laser powder bed fusion-fabricated (LPBF) Invar samples exhibits relative densities higher than 99.8%.•Volume fraction of the pores decreases with increase in the laser power.•Increasing the laser power strengthens the texture component parallel to the building direction.•Thermal expansion displacement of LPBF-Invar increases with decreasing porosity content and intensifying texture.
ISSN:0264-1275
1873-4197
DOI:10.1016/j.matdes.2018.10.025