Improving the applicability of wear-resistant Al–10Si–0.5 Mg alloy obtained through selective laser melting with T6 treatment in high-temperature, and high-wear environments
TLDR
In this article, the effects of T6 treatments on the microstructural evolution process and mechanical properties of Al-10Si-05 Mg alloy specimens fabricated through selective laser melting (SLM) were investigated.Abstract:
This study investigated the effects of T6 treatments on the microstructural evolution process and mechanical properties of Al–10Si–05 Mg alloy specimens fabricated through selective laser melting (SLM) The applicability of the wear-resistant alloy for high-temperature applications was evaluated The results reveal that the volume energy density (VED) of the laser used influences the structural morphologies of the SLM-fabricated alloy components Ultrafine crystals and residual stress formed in the SLM-fabricated alloy specimen due to the rapid cooling rate, thus causing high hardness, high strength, and extremely low elongation values T6 heat treatment decreases the hardness and tensile strength values of the alloy specimens but improves their elongation values because the residual stress is releases and the microstructure is changes such that a large number of Si particles are present in the Al matrix The mechanical properties are influenced by the Si particle distribution due to tensile crack initiation at hard–brittle Si particles The mechanical properties of the as-fabricated SLM alloy are comparable to those of 4384 alloys obtained after T6 heat treatment The SLM-fabricated specimen that presents a high VED value after T6 heat treatment exhibits good wear resistance The as-fabricated SLM alloy specimen retained its mechanical properties according to high-temperature tensile tests The SLM-fabricated Al alloy is a potential candidate for wear-resistance and high-temperature applicationsread more
Citations
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A high-strength heat-resistant Al−5.7Ni eutectic alloy with spherical Al3Ni nano-particles by selective laser melting
TL;DR: In this paper, a high-strength heat-resistant aluminum alloys by additive manufacturing (AM) was proposed to retard the solidification range by using an Al−5.7Ni alloy, thus alleviate crack formation tendency.
Journal ArticleDOI
A Review of the Selective Laser Melting Lattice Structures and Their Numerical Models
Zaki Alomar,Franco Concli +1 more
Journal ArticleDOI
Microstructure, mechanical properties, and fatigue fracture characteristics of high-fracture-resistance selective laser melting Al-Ni-Cu alloys
Abstract: Al-Ni-Cu alloys are used in energy, automotive, and aerospace industries because of their excellent mechanical properties, corrosion resistance, and high-temperature stability. In this study, Al-Ni-Cu alloy powder was subjected to selective laser melting (SLM). The SLM Al-Ni-Cu alloy was manufactured using appropriate printing parameters, and its properties were investigated. The results revealed that the As-printed material exhibited a typical melting pool stack structure, with an ultimate tensile strength of 725 MPa but a high brittleness effect (low ductility). After traditional heat treatment, the melting pool structure did not completely disappear. The strengthening phase Al7Cu23Ni precipitated from the boundary of the melting pools; thus, the Al-Ni-Cu alloy maintained high strength (>500 MPa) and considerably increased ductility (>10%). The SLM Al-Ni-Cu alloy has considerable industrial application potential; therefore, increasing the heat treatment temperature or extending the heat treatment time in the future works can promote the decomposition of the melting pool boundary and solve the problem related to the aggregation behavior of the precipitation phase, thereby improving the fatigue life of the alloy.
Journal ArticleDOI
Effects of hyper-high-temperature solid-solution treatment on microstructure evolution and nanoprecipitation of the Al-Ni-Cu-Fe-Zr-Sc alloy manufactured by selective laser melting
TL;DR: In this paper, the authors used hyper-high-temperature solid-solution treatment at three temperatures (560, 570, and 580 ǫ for 1h) to investigate the evolution of the melting pool structure.
Journal ArticleDOI
Tribological and mechanical behavior of AISI 316L lattice-supported structures produced by laser powder bed fusion
TL;DR: In this article, the effect of different lattice structures varying in unit cell geometry and size, built along different directions on the wear behavior, is addressed using AISI 316L powder processed with L-PBF.
References
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A Review of Additive Manufacturing
Kaufui V. Wong,Aldo Hernandez +1 more
TL;DR: Additive manufacturing processes take the information from a computer-aided design (CAD) file that is later converted to a stereolithography (STL) file as discussed by the authors.
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Analysis of defect generation in Ti–6Al–4V parts made using powder bed fusion additive manufacturing processes
TL;DR: In this article, the defect characteristics are discussed with respect to defect generation mechanisms; and effective process windows for SLM and EBM system are discussed. But they do not consider the defect generation mechanism.
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Microstructure and mechanical properties of Al-12Si produced by selective laser melting: Effect of heat treatment
Konda Gokuldoss Prashanth,Sergio Scudino,Hansjörg Klauss,Kumar Babu Surreddi,Lukas Löber,Zhi Wang,A. K. Chaubey,Uta Kühn,Jürgen Eckert +8 more
TL;DR: In this article, the effect of annealing on microstructure and related tensile properties is examined and the results demonstrate that the mechanical behavior of the Al-12Si SLM samples can be tuned within a wide range of strength and ductility through proper annesaling treatment.
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Effect of heat treatment on AlSi10Mg alloy fabricated by selective laser melting: Microstructure evolution, mechanical properties and fracture mechanism
TL;DR: In this paper, the influence of solution and artificial aging heat treatments on the microstructures and mechanical properties of SLM-produced AlSi10Mg alloy parts was investigated.
Journal ArticleDOI
Change in microstructure of selectively laser melted AlSi10Mg alloy with heat treatments
TL;DR: In this paper, the authors examined changes in the microstructure and mechanical properties of AlSi10Mg alloy, initially fabricated using selective laser melting (SLM) combined with a powder-bed system, by applying heat treatments at temperatures of either 300 or 530°C.