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Hybrid Pellet–Filament Co-extrusion for Customizing Flexibility and Strength in 3D-Printed Parts

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Bibliographic Details
Published in:	Integrating Materials and Manufacturing Innovation
Format:	Online Article RSS Article
Published:	2026
Subjects:	Manufacturing and Technology Technology & Engineering — Computing Technology & Engineering Journal Article
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container_title	Integrating Materials and Manufacturing Innovation
description
discipline_display	Technology & Engineering
discipline_facet	Technology & Engineering
format	Online Article RSS Article
genre	Journal Article
id	rss_article:12627
institution	FRELIP
journal_source_facet	Integrating Materials and Manufacturing Innovation
publishDate	2026
publishDateSort	2026
record_format	rss_article
spellingShingle	Hybrid Pellet–Filament Co-extrusion for Customizing Flexibility and Strength in 3D-Printed Parts Manufacturing and Technology Technology & Engineering — Computing Technology & Engineering
sub_discipline_display	Technology & Engineering — Computing
sub_discipline_facet	Technology & Engineering — Computing
subject_display	Manufacturing and Technology Technology & Engineering — Computing Technology & Engineering Manufacturing and Technology Technology & Engineering — Computing Technology & Engineering
subject_facet	Manufacturing and Technology Technology & Engineering — Computing Technology & Engineering
title	Hybrid Pellet–Filament Co-extrusion for Customizing Flexibility and Strength in 3D-Printed Parts
title_auth	Hybrid Pellet–Filament Co-extrusion for Customizing Flexibility and Strength in 3D-Printed Parts
title_full	Hybrid Pellet–Filament Co-extrusion for Customizing Flexibility and Strength in 3D-Printed Parts
title_fullStr	Hybrid Pellet–Filament Co-extrusion for Customizing Flexibility and Strength in 3D-Printed Parts
title_full_unstemmed	Hybrid Pellet–Filament Co-extrusion for Customizing Flexibility and Strength in 3D-Printed Parts
title_short	Hybrid Pellet–Filament Co-extrusion for Customizing Flexibility and Strength in 3D-Printed Parts
title_sort	hybrid pellet–filament co-extrusion for customizing flexibility and strength in 3d-printed parts
topic	Manufacturing and Technology Technology & Engineering — Computing Technology & Engineering
url	https://link.springer.com/article/10.1007/s40192-025-00434-1

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Hybrid Pellet–Filament Co-extrusion for Customizing Flexibility and Strength in 3D-Printed Parts

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