Szczegóły publikacji

Opis bibliograficzny

Fatigue behavior of powder bed Fused–Laser beam (PBF-LB) 70/30 Copper-Nickel (CuNi30) / Mojtaba Roshan, MohammadBagher Mahtabi, Wiktor BEDNARCZYK, Marta GAJEWSKA, Grzegorz CIOS, Alessandro Benelli, Andrea Tridello, Zaynab Mahbooba, Ankit Saharan, Meysam Haghshenas // International Journal of Fatigue ; ISSN 0142-1123 . — 2026 — vol. 208 art. no. 109574, s. 1–27. — Bibliogr. s. 26–27, Abstr. — Publikacja dostępna online od: 2026-02-17

Autorzy (10)

Roshan Mojtaba
Mahtabi MohammadBagher
AGHBednarczyk Wiktor
AGHGajewska Marta
AGHCios Grzegorz
Benelli Alessandro
Tridello Andrea
Mahbooba Zaynab
Saharan Ankit
Haghshenas Meysam

Słowa kluczowe

CuNi30 powder bed fused-laser beam fatigue facet 70/30 Cu-Ni additive manufacturing

Dane bibliometryczne

ID BaDAP	166278
Data dodania do BaDAP	2026-03-13
Tekst źródłowy	URL
DOI	10.1016/j.ijfatigue.2026.109574
Rok publikacji	2026
Typ publikacji	artykuł w czasopiśmie
Otwarty dostęp
Creative Commons
Czasopismo/seria	International Journal of Fatigue

Abstract

The 70/30 Cu–Ni alloy (CuNi30) is widely employed in marine systems due to its excellent corrosion resistance and mechanical reliability. Despite its industrial relevance, its behavior under additive manufacturing (AM), particularly powder bed fusion–laser beam (PBF-LB) processing, has received limited attention in the context of fatigue-critical applications. This study presents the first systematic assessment of the microstructure, defect population, mechanical properties, and fatigue performance of PBF-LB 70/30 Cu–Ni in both the as-built and heat-treated conditions, with specific attention to the role of build orientation using horizontally and vertically fabricated specimens. The applied heat treatment increased mechanical strength and produced a marked improvement in the stress–life (S–N) response of the alloy. Detailed microstructural characterization and post-mortem fractography showed that fatigue cracks predominantly initiated from surface or subsurface crystallographic facets induced by local embrittlement in the matrix. The results provide essential guidance for designing fatigue-resistant Cu–Ni components and support the broader adoption of PBF-LB 70/30 Cu–Ni in demanding marine and naval environments. Furthermore, this work establishes a foundation for future investigations into the corrosion-fatigue behavior of the alloy.

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