Abstract
Laser Powder Bed Fusion (L-PBF) is a widespread additive manufacturing technology in industrial applications, for metal components manufacturing. Maraging steel is a special class of Fe-Ni alloys, typically used in the aerospace and tooling sectors due to their good combination of mechanical strength and toughness. This work analyses the heat treatment effect on the microstructure and hardness value of 300-grade maraging steel manufactured by the L-PBF process. The considered heat treatment consists of a solution annealing treatment followed by quenching and ageing hardening treatment. The effect of ageing temperature is reported, in a wide temperature range. Results show that solution annealing treatment fully dissolves the solidification structure caused by the L-PBF process. Moreover, the ageing hardening treatment has a significant impact on the hardness, hence on strength, of L-PBF maraging steel. The optimal ageing conditions for the L-PBF maraging steel are identified and reported: in particular, results show that the hardness of 583 HV is achieved following ageing treatment at 490 °C for 6 hours. A higher treatment temperature leads to over-ageing resulting in a decrease of hardness. Conversely, an excessive ageing time does not seem to affect the hardness value, for the ageing temperature of 490 °C.
Highlights
Laser Powder Bed Fusion (L-PBF) is a widespread additive manufacturing technology in industrial applications, for metal components manufacturing
Song et al [6] and Conde et al [8] investigated the effect of various solution annealing and ageing heat treatment conditions on the mechanical behaviour of maraging steel by L-PBF and found that the solution annealing treatment leads to a decrease in strength compared with as-built samples
This paper aims to analyze, with a systematic approach, the effect of a temperature-time combination of ageing heat treatment on 18Ni 300-grade maraging steel based on the LPBF technology
Summary
Laser Powder Bed Fusion (L-PBF) is a widespread additive manufacturing technology in industrial applications, for metal components manufacturing. This work analyses the heat treatment effect on the microstructure and hardness value of 300-grade maraging steel manufactured by the L-PBF process. The scientific research about the production of maraging steel by L-PBF technology has been focused on the optimization of the process parameters and the condition of solution annealing and ageing heat treatments [39]. Song et al [6] and Conde et al [8] investigated the effect of various solution annealing and ageing heat treatment conditions on the mechanical behaviour of maraging steel by L-PBF and found that the solution annealing treatment leads to a decrease in strength compared with as-built samples. The mechanical behaviour of maraging steel after ageing treatment was compared with as-built and solution annealed sample
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