Alexey S. Galushko scite author profile

Additive manufacturing with fused deposition modeling (FDM) is currently optimized for a wide range of research and commercial applications. The major disadvantage of FDM-created products is their low quality and structural defects (porosity), which impose an obstacle to utilizing them in functional prototyping and direct digital manufacturing of objects intended to contact with gases and liquids. This article describes a simple and efficient approach for assessing the quality of 3D printed objects. Using this approach it was shown that the wall permeability of a printed object depends on its geometric shape and is gradually reduced in a following series: cylinder > cube > pyramid > sphere > cone. Filament feed rate, wall geometry and G-code-defined wall structure were found as primary parameters that influence the quality of 3D-printed products. Optimization of these parameters led to an overall increase in quality and improvement of sealing properties. It was demonstrated that high quality of 3D printed objects can be achieved using routinely available printers and standard filaments.

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Transition metal ‘cocktail’-type catalysis

Prima

Kulikovskaya

Galushko

et al. 2021

Current Opinion in Green and Sustainable Chemistry

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Comparative study of aryl halides in Pd-mediated reactions: key factors beyond the oxidative addition step

Galushko

Prima

Burykina

et al. 2021

Inorg. Chem. Front.

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Investigation of the porous structure of activated carbons prepared by pyrolysis of agricultural by-products in a stream of water vapor

Gergova¹,

Galushko²,

Petrov³

et al. 1992

Carbon

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Visualization of catalyst dynamics and development of a practical procedure to study complex “cocktail”-type catalytic systems

et al. 2021

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