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Abstract
Nitrogen alloyed austenitic nickel-free stainless steel (ANFSS) is one of the most promising group of materials for consumer and healthcare products. They can be used to substitute not only conventional AISI 316L, but also more expensive titanium and Co-Cr alloys. Previously the utilization of nitrogen alloyed materials has been limited due to poor machinability resulting from high strength and ductility, and difficulties in manufacturing the nitrogen alloyed raw materials. Recent developments in powder metallurgy, for example, additive manufacturing (AM), offer feasible net shape manufacturing routes to go around machining and material related challenges. The present study investigates and introduces a viable processing route for an ANFSS by gas atomization, direct energy deposition (DED), and sintering. Special attention is paid to control the nitrogen content in different processing steps by investigating a Fe-16Mn-14Cr-0.27C-0.35N alloy with experimental and computational methods. The results show that the nitrogen content can be computationally estimated and maintained at desired level by proper selection of processing parameters, and thereby controlling the final nitrogen content of the ANFSS alloy.
Original language | English |
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Pages (from-to) | 98-109 |
Number of pages | 12 |
Journal | Powder Metallurgy |
Volume | 67 |
Issue number | 2-3 |
DOIs | |
Publication status | Published - 1 Apr 2024 |
MoE publication type | A1 Journal article-refereed |
Keywords
- Additive manufacturing
- Calphad
- Direct energy deposition
- Nickel free steel
- Nitrogen alloyed steel
- Thermodynamics
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- 1 Active
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HiPAM: Eco-designed High Performance Alloy for AM and PM
Lindroos, T. (Manager), Antikainen, A. (Participant), Lagerbom, J. (Participant) & Jokiaho, T. (Participant)
1/09/22 → 1/10/25
Project: EU project