SLS 3D printers use powdered materials for printing. The most common type of material used in SLS 3D printers is nylon, a synthetic polymer from the polyamide family. Nylon is available in a variety of variants that are suitable for varying applications. For example, Nylon 12 GF is a glass-filled composite material that offers increased thermal stability and stiffness. While nylon 11 is an excellent choice for end-use applications and prototyping, its properties vary depending on the design and manufacturing practices. Therefore, it is important to check the material’s suitability before implementing it in a production environment.
SLS 3D printers are capable of producing high-quality printed parts, even at a low price. The Fuse 1 selective laser sintering (SLS) 3D printer has a powder recovery station and software that allows users to specify printing parameters and slice digital models into layers. The printer sends print preparation instructions to a host of computer devices via a wired or wireless connection. The Fuse Sift is one of the most popular SLS 3D printers available today.
SLS 3D printers are made with nylon, which is lightweight and strong, but not rigid. Its material properties depend on the design and manufacturing practices, but the process is still quite versatile. The advantage of an SLS 3D printer is its ability to produce high-quality parts at an affordable price. If you need a large volume of parts, an SLS printer is a great option for you.
While the EOS Formiga P 110 has a relatively fast speed, it weighs over 600kg and is not ideal for larger projects. You can expect a few hours of printing time, depending on the complexity of your part. Upon completion, the SLS printer can be removed from the print chamber and be reused. A SLS printer also needs to cool down before post-processing. This ensures optimal mechanical properties and quality.
The Sintratec S2 3D is a modular SLS 3D printer with a 20mm build volume and 0.05 mm layer thickness. The EOS Formiga P110 Velocis is a great entry level SLS machine with a 200mm build volume and variable layer thickness. Besides being modular, the S2 also includes optional post-processing stations. Among SLS 3D printers, the Red Rock 3D is a new-release that was released in January 2021 by the Russian manufacturer Red Rock.
An SLS 3D printer can process a wide variety of materials. The most popular engineering thermoplastic is nylon. Its high strength and stability is perfect for rapid prototyping and production. Another popular material is PEEK. Unlike other plastics, the PEEK can be printed in a thin layer. A SLS 3D printer can be used in a variety of applications. There are many benefits to SLS.
The Red Rock desktop SLS 3D printer was developed for functional prototyping and pilot studies. Its build volume is 180x180x180mm. It prints at a speed of 20 cubic centimeters per hour. The red rock desktop SLS 3D printer supports black powder PA12 and features an open powder recycling bunker for easy powder recycling. Its front panel is quick to remove. Its size and speed are ideal for small-scale companies and individuals.
SLS 3D printers are very popular in the industrial sector. These printers can be used to make metal components and other complex structures. However, they are not suitable for every application. For large-scale production, SLS can be a good choice. If you’re looking for an affordable SLS 3D printer, you’ll find one that fits your needs. In a few years, you can use it to create complex parts and prototypes.
An affordable desktop SLS 3D printer is the Sinterit Lisa. This plug-and-play machine is easy to use and offers a large build volume. Using firm or flexible nylon parts, the Sinterit Lisa SLS is ideal for professional prototyping. It weighs just over 40 kilograms, and costs $18,000. This model is a good option for a workstation or home.
An industrial SLS 3D printer can handle different materials. While desktop SLS printers are generally limited to plastics, industrial SLS printers can also handle metal powder and ceramics. The industrial SLS printers have the edge definition technology and can be used in manufacturing industries. The cost ranges for these machines are between $6,000 and $250,000. It is a good option for beginners, but there are many options in between.