Abstract
In the present study, 18% Ni 300 maraging steel powder was processed using a selective laser melting (SLM) technique to study porosity variations, microstructure, and hardness using various process conditions, while maintaining a constant level of energy density. Nowadays, there is wide range of utilization of metal technologies and its products can obtain high relative density. A dilatometry study revealed that, through heating cycles, two solid-state effects took place, i.e., precipitation of intermetallic compounds and the reversion of martensite to austenite. During the cooling process, one reaction took place (i.e., martensitic transformation), which was confirmed by microstructure observation. The improvements in the Rockwell hardness of the analyzed material from 42 ± 2 to 52 ± 0.5 HRC was improved as a result of aging treatment at 480 °C for 5 h. The results revealed that the relative density increased using laser speed (340 mm/s), layer thickness (30 µm), and hatch distance (120 µm). Relative density was found approximately 99.3%. Knowledge about the influence of individual parameters in the SLM process on porosity will enable potential manufacturers to produce high quality components with desired properties.
Highlights
Since 1950, maraging steel has been intensively subjected to research and development
Measurements from the technological properties of powder 18Ni-M300 steel showed that the flowability, according to the ISO 4497: 2020-04 standard [24], was 25 s and the bulk density, according to the ISO 3923-1:2018-09 standard [25], was found at 3.89 g/cm3, which tapped density according to the ISO 3953:2011standard [26] (4.85 g/cm3 )
The aforementioned fine cellular formation is a typical structure of selective laser melting (SLM) steels, and it can affect the strength and hardness development of SLM steels as related to conventionally fabricated steels
Summary
Since 1950, maraging steel has been intensively subjected to research and development. It belongs to the group of high strength materials with broad application in many different industries. The mechanical properties of maraging steel can be formed due to proper heat treatment. The 18Ni-300 steel is generally heat treated, hardened and aged in a temperature range of 450–510 ◦ C, which results in improved mechanical properties (i.e., hardness and strength as nucleation effect [3,4] like γ-Ni3 Mo, NiAl, Ni3 (Al, Ti), Ni3 (Ti, Mo), Ni(Al, Fe), η-Ni3 Ti, Fe2 Mo, σ-FeMo, μ-Fe7 Mo6 , FeTi, Fe2 Ti, and Ni3 Al [5,6])
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