In addition, with high compatibility with SLM HUB, utilizing SLM 800 to Metal 3D Printing is cost-effective as all recovered powder can be returned to the powder supply and can be used in the next printing. Featuring an integrated powder tank, SLM 800 delivers high safety and ensures material quality while printing. Besides, vertical orientations save materials and need less post-processing. To reduce exposure on every layer and improve part quality, SLM 800 is vertically extending the build envelope. It uses an extended z-axis to deliver high efficiency and quality. SLM 800 is another ideal Laser Metal 3D printer for large-scale metal part production. SLM 125 is also an optimal system for all users, form Metal 3D beginner, research institutes, to prototype manufacturers because it can satisfy customers’ requirements and allows the user to adjust the selective laser melting strategy. Besides, with a reduced number of powder-transporting components, materials can be changed quickly and easily on SLM 125. There are a variety of materials can be processed with SLM 125, including stainless steel, cobalt-chrome, nickel alloys, aluminum, and titanium. Although the size’s small, SLM 125 offers a large-built plate and powerful laser which makes it a flexible Metal 3D printer. It is an ideal Metal 3D Printing solution for different users, from rapid prototyping and small batch manufacturing to mass production. SLM 125 is the smallest machine in the SLM Solutions’ lineup, featuring compact, accurate high-power printing for low powder volume applications. Speaking of the best Metal 3D printer and affordable metal 3d printer, we don't want to miss this name: SLM Solution printers. However, Metal 3D printer cost can be a huge budget for personal usage, so, here we list Top 5 Metal 3D Printers. Besides, metal addictive manufacturing will waste much less raw materials which is also considered as an environmentally friendly technology. Metal 3D Printing produces functional prototypes and even special metal components for high-tech industries such as aerospace, automobiles, and medical industry. It creates metals parts that can be used directly and parts with shapes and complex structures in one piece, which enhances manufacturing efficiency and productivity by saving time on assembling and testing parts. The LaserCUSING process will also make it possible to make lightweight structures with a high level of rigidity, which will permit weight-optimised geometries with almost no restrictions on the design.Metal 3D Printing delivers lots of benefits to various industries from manufacturing to high-tech companies. The aim of Daimler AG was to replace costly sand- and die-casting applications in early phases of development. The machine was specifically configured to cater for Daimler AG’s special requirements for automobile applications. In the future, precious metals such as gold and silver will also be used. Depending on the application, the materials used are high-grade and tool steels, aluminium or titanium alloys, nickel-based superalloys, and cobalt-chromium alloys. The LaserCUSING process, which is equivalent to the SLM process, is used to produce metallic components that can be subjected to mechanical and thermal loading with high precision. Having already seen the launch of the large build Objet1000 at Euromold, Concept Laser has launched the (Terminator-esque-sounding) X line 1000R, its large-scale laser fusing machine initially designed for Daimler.ĭaimler requested the Fraunhofer Institute for Laser Technology and the LaserCUSING (equivalent to SLM) specialist Concept Laser to develop the X line 1000R, which apparently has the largest build chamber size yet developed, and a high-power laser in the kilowatt range that purportedly gives a 10-times increase in productivity compared with standard SLM machines. The real thing looks less crappy than this render, and a lot bigger
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