2023310 · The extrusion die was driven to rotate at 1000 rpm to locally soften the aluminum alloy rod during 3D printing. An in-plane velocity of 160 mm min −1 was used for all the linear or curvilinear deposition. The materials feed rates were varied in such a way that defect-free depositions with the same deposition width but different layer
2020102 · Alloy synthesis. A 136 kg lot of SB-CoNi-10 powder was fabricated by vacuum induction melting and argon gas atomization. A powder size range of 15–53 μm was used for SLM printing, while a
2021924 · When 3D printing with alloys, each layer is first added as a thin covering of powder (containing grains of the several compositional elements) which is then flash-melted by a laser, fusing the grains together. This could enable the factory production of precision components, such as those used in jet engines that are currently produced through
202281 · The failure of transpassive films on transition metal alloys was investigated. The results show that the failure of the transpassive film on 3D printing nickel-based superalloy in flowing NaNO 3 solution is dominated by self-induced cracking of the film on niobium-segregated phases and the erosion-induced degradation on the film assisted by
2021613 · 1 Introduction. Under the guidance of the computer model defined by the geometrical parameters, the additive manufacturing (AM) process constructs a three
202428 · Zhang et al.''s proposed design strategy opens an avenue for exploring different metal powder feedstocks, diverse printable alloy systems, and different 3D
2024220 · Then RenAM 500Q can 3D print titanium alloys, cobalt chromium, stainless steel, and a variety of other metal powders. Featuring four high-powered lasers that move independently and can all access the powder bed simultaneously, metal 3D printing speeds can be greatly increased, also lowering cost per part.
201971 · PDF | Metal Additive Manufacturing (AM) processes, such as selective laser melting (SLM), enable the fabrication of arbitrary 3D-structures with | Find, read and cite all the research you need
20231117 · 3D printing of high-strength aluminium alloys. John H. martin1,2, brennan D. Yahata1, Jacob m. Hundley1, Justin A. mayer1, tobias A. schaedler1 & tresa m. pollock2. Metal-based additive
Metal-based additive manufacturing, or three-dimensional (3D) printing, is a potentially disruptive technology across multiple industries, including the aerospace, biomedical and
20231215 · The rapid development of 3D printing technologies demands new materials with novel properties, as many high-strength metallic materials (up to over
4 · Metal Materials Consistent quality, Guaranteed output. Ranging from aluminum, maraging steel, steel and various grades of titanium to nickel and cobalt chrome alloys 3D Systems offers you an extensive portfolio of sophisticated, ready-to-run metal alloys for Direct Metal Printing (DMP) with thoroughly tested build parameters for our DMP printer
2019121 · The focus of this review article is on selective laser melting, which is one of the metal AM techniques. Metallic AM systems can be classed as: (a) powder-bed
2023419 · The characterization of this new alloy, Glenn Research Center Extreme Temperature above 810 °C (GRX-810), showed orders of magnitude better creep
2023310 · Off-the-shelf metal rods were used as feedstock and the printing process was completed in an open-air environment, avoiding pricy powders and costly inert or
3D Printing Metal Filaments and Powders. There are two main drivers of whether or not a metal alloy is printed today: printability and demand. Though there are a wide variety of metal 3D printing processes out there, nearly all rely on metal powders. These materials take two forms in printing: raw 3D printing metal powders, or bound powder 3d
2024117 · In this work, we develop an in situ approach for designing an accelerated and efficient process for 3D printing of new metal alloys to achieve melt-pool stability and
2017920 · The approach to metal-based additive manufacturing is applicable to a wide range of alloys and can be implemented using a range of additive machines, and provides a foundation for broad industrial applicability, including where electron-beam melting or directed-energy-deposition techniques are used instead of selective laser
4 · 3D Systems invented 3D printing. Our customers have produced hundreds of thousands of metal parts with our printers, metal materials, services and specialized software. Ranging from aluminum, maraging steel, steel and various grades of titanium to nickel and cobalt chrome alloys 3D Systems offers you an extensive portfolio of
2020511 · 3D printing as a new processing avenue for superalloys. Using 3D printing, or additive manufacturing (AM), instead of investment casting allows processing to occur radically differently, with