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Naslov: Anisotropy limitations in additive manufacturing with material extrusion Avtorji: ID Podmiljšak, Benjamin, Institut "Jožef Stefan" (Avtor) ID Komelj, Matej, Institut "Jožef Stefan" (Avtor) ID Vishwakarma, Anubhav, Institut "Jožef Stefan" (Avtor) ID Jenuš, Petra, Institut "Jožef Stefan" (Avtor) ID Šturm, Sašo, Institut "Jožef Stefan" (Avtor) ID Žužek Rožman, Kristina, Institut "Jožef Stefan" (Avtor) Datoteke: URL - Izvorni URL, za dostop obiščite https://www.sciencedirect.com/science/article/pii/S2238785426002917?via%3Dihub   PDF - Predstavitvena datoteka, prenos (8,61 MB) MD5: A5AD46A9BC246C2678F65280ACEAEEDE   Jezik: Angleški jezik Tipologija: 1.01 - Izvirni znanstveni članek Organizacija: IJS - Institut Jožef Stefan Povzetek: Achieving anisotropy in additively manufactured composites is essential for high-performance functional materials but remains challenging in fused filament fabrication (FFF). This study investigates a field-assisted FFF approach using strontium hexaferrite (SrFe12O19)–polyphenylene sulfide (PPS) composites, in which particle alignment is induced by processing on top of a high-strength neodymium–iron–boron (Nd–Fe–B) magnet. Two configurations were compared: (i) a continuous setup, where the growing printed material remains in direct contact with the magnet and can act as a flux-guiding core, and (ii) a spacer-based setup, where non-magnetic spacers separate the print from the field source. Structural, functional (magnetic) measurements and finite element simulations (FEMM) were used to quantify the evolution of anisotropy as a function of build height. In the continuous configuration, particle alignment—and thus macroscopic anisotropy—remains high up to about 20 mm, with 0.90, and then gradually declines while still being detectable at 57.5 mm. Spacer-printed samples lose anisotropy much earlier, with approaching isotropic values (∼0.5) beyond 20–25 mm. Simulations reproduce these trends and show that previously deposited material acts as a flux-guiding path, sustaining a predominantly uniaxial field with height. The results define practical limits for static-field alignment in material-extrusion processing and provide geometry-dependent design rules for scalable fabrication of anisotropic ceramic–polymer composites. The findings are relevant for materials and process design in applications where controlled anisotropy is required over centimetre-scale dimensions. Status publikacije: Objavljeno Verzija publikacije: Objavljena publikacija Poslano v recenzijo: 29.11.2025 Datum sprejetja članka: 04.02.2026 Datum objave: 05.02.2026 Založnik: Elsevier Leto izida: 2026 Št. strani: str. [1-25] Številčenje: Vol. Izvor: Nizozemska PID: 20.500.12556/DiRROS-27524  UDK: 621.7+621.9 ISSN pri članku: 2214-0697 DOI: 10.1016/j.jmrt.2026.02.041  COBISS.SI-ID: 267954691  Avtorske pravice: © 2026 The Authors. Opomba: Nasl. z nasl. zaslona; Soavtorji iz Slovenije: Matej Komelj, Anubhav Vishwakarma, Petra Jenuš, Sašo Šturm, Kristina Žužek; Opis vira z dne 10. 2. 2026; Datum objave v DiRROS: 11.02.2026 Število ogledov: 365 Število prenosov: 86 Metapodatki:    Citiraj gradivo Navadno besedilo BibTeX EndNote XML EndNote/Refer RIS ABNT ACM Ref AMA APA Chicago 17th Author-Date Harvard IEEE ISO 690 MLA Vancouver : Kopiraj citat

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Gradivo je del revije

Naslov:	Journal of materials research and technology
Založnik:	Brazilian Metallurgical Materials and Mining Association, Elsevier
ISSN:	2214-0697
COBISS.SI-ID:	56382211

Gradivo je financirano iz projekta

Financer:	Ministrstvo za visoko šolstvo, znanost in inovacije
Številka projekta:	C3330-22-252016
Naslov:	Additive manufacturing of permanent magnet materials
Akronim:	AddMag

Licence

Licenca:	CC BY-NC 4.0, Creative Commons Priznanje avtorstva-Nekomercialno 4.0 Mednarodna
Povezava:	http://creativecommons.org/licenses/by-nc/4.0/deed.sl
Opis:	Licenca Creative Commons, ki prepoveduje komercialno uporabo, vendar uporabniki ne rabijo upravljati materialnih avtorskih pravic na izpeljanih delih z enako licenco.
Začetek licenciranja:	05.02.2026
Vezano na:	VoR

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