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2022110 · EOS Aluminium AlSi10Mg Good Strength & Dynamic Load Bearing Capacity EOS Aluminium AlSi10Mg is a widely used alloy that combines light weight and
contact2020106 · AlSi10Mg is a hardenable aluminum-based alloy with a density of circa 2.67 g/cm³ [2]. It is applicable for thin-walled components and parts with complex
contact2023313 · The hard anodizing treatments of cast Al-Si alloys are notoriously difficult. Indeed, their microstructural features hinder the growth of a uniform, compact, and defect
contactThe material has good thermal and electrical conductivity especially after heat treatment. In addition, gas tight parts can be manufactured with EOS Aluminum AlSi10Mg. Properties.
contact2023321 · Uniformity Labs, Fremont, California, USA, and Tekna Holding ASA, Sherbrooke, Quebec, Canada, have extended their partnership, where Tekna will supply
contactAlSi10Mg is an aluminium-based alloy with excellent mechanical properties, low weight, and corrosion resistance. Recommended for thin and lightweight design that still requires
contactThe high cooling rates reached during metal additive manufacturing (MAM) generate microstructures very different from those obtained by other conventional manufacturing
contact20211216 · Selective laser melted (SLM) aluminum alloys are widely used for many technical applications. However, the application is limited to low temperatures due to their relatively poor creep resistance. The creep resistance and strength could be enhanced by oxide dispersion-strengthening. A hypothesis is that oxygen intake during selective laser
contact202161 · For the SLM counterparts, the heat treatment process resulted in a more uniform distribution of Si particles in the aluminum matrix (Fig. 4 a–c).Fig. 5 clearly shows the differences in the as-cast and as-built AlSi10Mg microstructures. The size of the eutectic-silicon is tangibly coarser in the cast material as compared with the SLM
contactIn this work, SLM parameters for AlSi10Mg alloy were optimized, and the SLM AlSi10Mg sample with a high relative density of 99.63% was obtained. The SLM sample exhibited good properties, including an ultimate tensile strength (UTS) of approximately 478 MPa, a total elongation of 8%, and an average hardness of 122 HV along the horizontal ...
contact2022913 · This work aims to expand the knowledge of the material properties of aluminum alloys when the LMD process is performed under atmospheric conditions, by comparing results obtained both with conventional alloys (AlSi10Mg and AlSi1Mg both with PSD 63–105 μm) and with AM-specific alloys (AM205 with PSD 63–105 μm and AlSi1Mg
contact2022323 · AlSi10Mg aluminium powder was deposited on AW-6082 pre-machined substrates and mechanical and thermal properties of these specimens were evaluated considering the application of a stress relief ...
contactThe deformation behaviour of additively manufactured AlSi10Mg alloy under low strains, high strain rates and elevated temperature conditions is essential to analyse and predict its response against dynamic loading such as impact and thermomechanical fatigue. The constitutive relation of Johnson-Cook is used to capture the strain rate ...
contactThe high cooling rates reached during metal additive manufacturing (MAM) generate microstructures very different from those obtained by other conventional manufacturing methods. Therefore, research about the modeling of this type of microstructure is of great interest to the MAM community. In this work, the prediction of the lamellar spacing of an
contact20211216 · Selective laser melted (SLM) aluminum alloys are widely used for many technical applications. However, the application is limited to low temperatures due to their relatively poor creep resistance. The creep resistance and strength could be enhanced by oxide dispersion-strengthening. A hypothesis is that oxygen intake during selective laser
contact202076 · To examine the effect of laser power, LPBF of AlSi10Mg was carried out using laser powers of 150, 200, 250, 300, and 350 W, while the scan speed, hatch spacing, and slice thickness were held constant at 1200 mm/sec, 0.13 mm, and 0.03 mm, respectively. This is listed as series I experiment in Table 1.
contactThe high cooling rates reached during metal additive manufacturing (MAM) generate microstructures very different from those obtained by other conventional manufacturing methods. Therefore, research about the modeling of this type of microstructure is of great interest to the MAM community. In this work, the prediction of the lamellar spacing of an
contact2022913 · This work aims to expand the knowledge of the material properties of aluminum alloys when the LMD process is performed under atmospheric conditions, by comparing results obtained both with conventional alloys (AlSi10Mg and AlSi1Mg both with PSD 63–105 μm) and with AM-specific alloys (AM205 with PSD 63–105 μm and AlSi1Mg
contact2022323 · AlSi10Mg aluminium powder was deposited on AW-6082 pre-machined substrates and mechanical and thermal properties of these specimens were evaluated considering the application of a stress relief ...
contact20211213 · Design/methodology/approach. In this study, quartz sands (SiO 2) assisted with oxide ceramics were used in the slurry erosion test setup and its abrasiveness on the AlSi10Mg aluminum alloy material produced by the 3D printer as selective laser melting (SLM) technology was investigated.Quartz was sieved with an average particle
contact201971 · (a) Characteristic chevron pattern on top of an AlSi10Mg single track processed by SLM on an LM6 as-cast substrate and (b) cross-sectional view of a single melt pool showing evidence of keyhole ...
contact2021224 · L-PBF AlSi10Mg shows much lower stress gradient influence factors at the same relative stress gradients compared to cast aluminum A319-T7 (at 120 °C). Also, the high notch sensitivity factors (q) for L-PBF AlSi10Mg (shown in Table 3) suggest that the material is very notch sensitive, which could be resulted from the small grain size. The ...
contactAluminum (AlSi₁₀Mg) The strength, thermal properties, low weight, and flexible post-processing of this aluminum alloy, AlSi₁₀Mg, make it a favorite for prototyping and manufacturing — especially in industries like automotive, aerospace, and automation. With this alloy, users can create larger models than with any other metal 3D ...
contactThe deformation behaviour of additively manufactured AlSi10Mg alloy under low strains, high strain rates and elevated temperature conditions is essential to analyse and predict its response against dynamic loading such as impact and thermomechanical fatigue. The constitutive relation of Johnson-Cook is used to capture the strain rate ...
contact2023316 · The microstructure of as-built materials was observed using both SEM and TEM. As revealed by the SEM images, SLMed Al 4 C 3 /AlSi10Mg (Figure 2(b)) exhibits a cellular structure, which is similar to SLMed AlSi10Mg (Figure 2(a)). Figure 2(c) shows a high magnification TEM image for Al 4 C 3 /AlSi10Mg, focusing on an individual cell.
contact202331 · The PT-AlSi10Mg powders by above discharge plasma treatment during the milling tank were taken out and fabricated cuboid/circular flake samples with dimensions of 30 mm × 10 mm× 3 mm and ϕ 20 mm × 3 mm (see in Fig. 1 (a)) by using a BLT S200 SLM machine (Xi’an Bright Laser Technologies Co., Ltd. China) equipped with a 500 W
contactThe high cooling rates reached during metal additive manufacturing (MAM) generate microstructures very different from those obtained by other conventional manufacturing methods. Therefore, research about the modeling of this type of microstructure is of great interest to the MAM community. In this work, the prediction of the lamellar spacing of an
contact2021326 · In this work, we considered laser powder bed fusion additive manufacturing of two alloys in the Al–Ce–Mg system, designed as near-eutectic (Al–11Ce–7Mg) and hyper-eutectic (Al–15Ce–9Mg ...
contact20211213 · Design/methodology/approach. In this study, quartz sands (SiO 2) assisted with oxide ceramics were used in the slurry erosion test setup and its abrasiveness on the AlSi10Mg aluminum alloy material produced by the 3D printer as selective laser melting (SLM) technology was investigated.Quartz was sieved with an average particle
contact2018719 · AlSi10Mg alloy belongs to hypoeutectic aluminium alloys group. Due to good mechanical properties combined with low density, corrosion resistance and excellent castability it is widely used in automotive industry, aircraft and military applications [1,2].
contactDirect Metal Laser Sintering (DMLS) processing of aluminum alloys has been primarily limited to a casting grade of aluminum, AlSi10Mg. The reasons for the choice of AlSi10Mg by machine manufacturers are presently unknown; however, it is suspected that the reduced coefficient of thermal expansion (CTE) due to the presence of Silicon may enhance
contact202281 · EOS Aluminium AlSi10Mg Robert-Stirling-Ring 1 AD / 10.2010 4 / 4 D-82152 Krailling / München Abbreviations approx. approximately wt- weight Notes The data are valid for the combinations of powder material, machine and parameter sets referred to on page 1, when used in accordance with the relevant Operating Instructions (including
contact3D-printed aluminum offers high temperature and corrosion resistance and an excellent strength-to-weight ratio. Aluminum (AlSi10Mg) is comparable to a 3000 series alloy that is used in casting and die casting processes. It has good strength-to-weight ratio, high temperature and corrosion resistance, and good fatigue, creep and rupture strength.
contact2019614 · AlSi10Mg Materialdatenblatt Aluminium AlSi10Mg - Laserschmelzen Materialeigenschaft AlSi10Mg kombiniert die Legierungsbestandteile Silizium und Magnesium zu einer signifikanten Erhöhung der Festigkeit und Härte gegenüber anderen Aluminium Legierungen. Aufgrund der sehr schnellen Schmelz- und Erstarrungszeiten im
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