Journal ArticleDOI
Manufacturing of 18 Ni Marage 300 Steel Samples by Selective Laser Melting
TLDR
In this paper, the effect of the main process parameters (laser power, scan speed, scan spacing, hatch spacing, scanning strategy) and of thermal treatments on the quality of built parts in terms of hardness, density, microstructure, and mechanical properties was investigated.Abstract:
Selective Laser Sintering (SLS), has become one of the most popular technique in the layer manufacturing processes because of the ability to build complex geometries models with a wide range of materials. Recently, the interest in SLS is mainly focused into metals because of the possibility of producing models not only for the prototyping step but also as functional parts. Driven by the need to process nearly full dense objects, with mechanical properties comparable to those of bulk materials and by the desire to avoid long post processing cycles, Selective Laser Melting (SLM) has been developed. SLM represents an evolution of the SLS process: in the first one the complete melting of powder occurs rather than sintering or partial melting of the second one. SLM, is mainly suitable to produce tools and inserts with internal undercuts and channels for conformal cooling for injection molding. A careful control of the parameters which influence the melting and the amount of energy density involved in the process is necessary to get parts with optimized quality. The aim of this paper was to study the effect of the main process parameters (laser power, scan speed, scan spacing, hatch spacing, scanning strategy) and of thermal treatments on the quality of built parts in terms of hardness, density, microstructure, and mechanical properties. The 18 Ni Marage 300 steel, one of the most used materials in the die industry was investigated, using a Nd:YAG laser with a maximum power of 100W.read more
Citations
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Journal ArticleDOI
Experimental investigation and statistical optimisation of the selective laser melting process of a maraging steel
TL;DR: In this article, the authors performed an experimental investigation and a successive statistical optimization of the parameters of the selective laser melting process of the 18Ni300 maraging steel and found that the best part properties were produced with the laser power bigger than 90 W and the velocity smaller than 220 mm/s.
Journal ArticleDOI
Influence mechanism of parameters process and mechanical properties evolution mechanism of maraging steel 300 by selective laser melting
TL;DR: In this article, the influence of process parameters (laser powder, scanning speed and scanning space) on the relative density of maraging steel 300 was investigated first and then a series of block and plate specimens were manufactured.
Journal ArticleDOI
Tensile, fracture, and fatigue crack growth properties of a 3D printed maraging steel through selective laser melting
TL;DR: In this article, the microstructure and room temperature mechanical properties of a 18Ni (300) grade maraging steel (MS) fabricated using the selective laser melting (SLM) technique were studied, in both before-and after-aging conditions.
Journal ArticleDOI
Microstructural evolution and mechanical properties of maraging steel produced by wire + arc additive manufacture process
TL;DR: In this article, the microstructure and mechanical properties of maraging steel parts were investigated and the micro-hardness and tensile strength of the as deposited alloy reduced from the bottom to the top due to the transient thermal cycling, which resulted in partial aging and non-uniform formation of intermetallic compounds along the building direction.
Journal ArticleDOI
Manufacturing and Characterization of Ti6Al4V Lattice Components Manufactured by Selective Laser Melting.
Sabina Luisa Campanelli,Nicola Contuzzi,Antonio Domenico Ludovico,Fabrizia Caiazzo,Francesco Cardaropoli,Vincenzo Sergi +5 more
TL;DR: This paper investigates the fabrication of Selective Laser Melting titanium alloy Ti6Al4V micro-lattice structures for the production of lightweight components using the pillar textile unit cell as base lattice structure and alternative lattice topologies including reinforcing vertical bars are considered.
References
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Journal ArticleDOI
Selective laser melting of iron-based powder
Jean-Pierre Kruth,Ludo Froyen,J. Van Vaerenbergh,Peter Mercelis,Marleen Rombouts,Bert Lauwers +5 more
TL;DR: In this paper, a mixture of different types of particles (Fe, Ni, Cu and Fe3P) specially developed for selective laser sintering (SLS) is described.
Journal ArticleDOI
A comparison of rapid prototyping technologies
Duc Truong Pham,Rosemary Gault +1 more
TL;DR: There are many different rapid prototyping (RP) technologies available as discussed by the authors, and a taxonomy is also suggested, along with a preliminary guide to process selection based on the end use of the prototype.
Book
Laser-induced materials and processes for rapid prototyping
Li Lu,Jerry Y. H. Fuh,Y. S. Wong +2 more
TL;DR: In this article, the basic principles of laser-lithography processes are discussed. But they do not cover the application of laser sintering of metal-based systems via laser melting.
Journal ArticleDOI
Further studies in selective laser melting of stainless and tool steel powders
Mohsen Badrossamay,Tom Childs +1 more
TL;DR: In this article, the authors investigated the properties of H13 tool steel and 316L stainless steel powders at selected laser powers and compared the masses of the layers with those predicted from an existing finite element thermal model, finding that the variation of mass with scan speed is much less than might be expected from a constant assumed absorptivity into a powder bed.
Journal ArticleDOI
Modeling of precipitation hardening during the aging and overaging of 18Ni–Co–Mo–Ti maraging 300 steel
TL;DR: In this paper, the authors investigated the precipitation hardening behavior of an 18Ni-Co-Mo-Ti maraging 300 solution treated and aged in the 440-650°C range.