2024年粉末冶金国際会議

講演情報

General Sessions (Oral) » T6 AM Beam Based Technologies

[T6] AM Beam Based Technologies

Oral

2024年10月15日(火) 15:30 〜 17:10 Room B (3F 302, Conference Center)

Chairpersons: Akihiko Yanagitani (University of Hyogo, Japan), Hideki Kyogoku (TRAFAM, Japan)

16:10 〜 16:30

[15B-T6-22] Advancing Additive Manufacturing of Ni-Based Superalloys: Integrating High Entropy Alloy Thermodynamics into Novel CoNi-Based Superalloys for Powder Based Technologies

A. Mohammadzadeh1,2, A. De Nardi2,3, *J. M. Torralba2,4 (1.Department of Materials Engineering, Faculty of Engineering, University of Maragheh, Iran, 2.IMDEA Materials Institute, Spain, 3.Politecnico di Torino, Italy, 4.Universidad Carlos III de Madrid, Spain)

キーワード:High entropy superalloys; Laser powder bed fusion; Alloy design

A new class of CoNi-based high entropy superalloy (CoNi-HESA) was developed for laser powder bed fusion (L-PBF) additive manufacturing, integrating high entropy alloy (HEA) thermodynamics. The alloy (Co-35Ni-8Al-4Ti-4V-2W-2Ta-9Cr) was methodically crafted using gas atomization. Employing L-PBF, a comprehensive Design of Experiment (DoE) approach studied the impact of processing parameters (laser power and scan speed), establishing a process window for >99.9% relative density. Advanced electron microscopy revealed a single-phase fcc solid solution, confirming thermodynamic predictions. In parallel, the CoNi-HESA, designed for demanding applications in energy, space, and nuclear sectors, showcased impressive tensile strength (>1GPa), ductility (≈30%), and sustained yield strength up to 800°C. The alloy's crack-resistant properties make it ideal for L-PBF, revolutionizing high strength and temperature component production. CALPHAD calculations based on the HEA database validated the alloy design strategies. This study converges HESA synthesis, L-PBF optimization, and alloy performance, offering a paradigm shift in advanced manufacturing.