XiP’s mSLA 3D printer is powered by Nexa3D’s proprietary Lubricant Sublayer Photo-curing (LSPc) Technology, which allows users to print at speeds of up to 18cm per hour, breaking the speed barrier in the 3D printing industry today. A replaceable, modular 4K LCD screen and advanced UV Light Engine combine to provide equal and strong exposure ensuring your parts are uniform and consistent and have the best possible surface finish every print.
The XiP desktop 3D printer is a fully open material platform that gives you ultimate flexibility and access to the materials you need, when you need them.
Our resin cartridges allow users the ability to load and unload material on the fly – even during a live print job. Once inserted, the printer automatically begins resin authentication and compatibility checks with the current build requirements using NFC technology.
Sleek yet tough, the XiP’s modular structure is designed for frequent use. Industrial-grade components and carefully designed, intuitive workflows provide optimized usability, serviceability, and upgradability.
With its open material access, industrial performance, and modular design, the XiP is a best-in-class desktop resin 3D printer that offers the ultimate flexibility. Users can create consistent, high-quality parts and prototypes with reliability and repeatability using both Nexa3D validated resin as well as third party materials.
With an unprecedented 8.5L build volume measuring 275 x 155 x 200mm (10.8 x 6.1 x 7.8 inch), intelligent optimization, and Nexa3D’s revolutionary patented LSPc technology, the NXD 200 is the perfect printer for any dental application.
Patient-specific 3D printed dental models, surgical guides, splints, trays, and nightguards can be produced in-house with speed, reliability, and accuracy.
Designed specifically for the dental industry, the NXD 200 offers world-class dental model manufacturing capabilities at ultrafast speeds with validated Keystone performance dental resins. The NXD 200 offers high throughput to keep dental operations productive, with a large build plate to create up to 20 flat models in less than 30 minutes.
Ultrafast 3D printing with validated materials and workflows bring dental manufacturing solutions you can trust — right to your lab.
The base of the LSPc process is a uniform light source, which is created through a combination of an ultraviolet (UV) light array and the LSPc optical layer. This uniform light is then projected through the LSPc HC Mask, which is responsible for adjusting and projecting light to the appropriate regions of the vat, where photopolymerization for a specific print job is taking place layer by layer. The final part of the process involves the proprietary LSPc membrane, which both creates a no-stick zone between the cured part and vat as well as allowing resin to quickly spread across the entire vat and ensure replenishment between each layer.
With an unprecedented 16L build volume measuring 10.8 in x 6.3 in x 15.7 in (27.5 cm x 16 cm x 40 cm), intelligent optimization, and Nexa3D’s revolutionary patented Lubricant Sublayer Photocuring (LSPc) technology, the NXE 400 photopolymer 3D printer is perfect for any application.
Features 2.5 times greater build volume (16L) compared to currently available technologies, allowing for much larger parts, higher part throughput, and ultimately lower part cost, all with higher-resolution pixels (76 µm) and isotropic prints.
Patented LSPc process enables production speeds that are up to 6.5x faster than other production systems. Uniform exposure and process control also ensure production build speeds at the highest quality levels.
Offering the widest range of materials to meet all your performance needs, including PP-Like, ABS-Like, and engineering-grade functional materials. Additionally, there are specialty materials tailored specifically for the production of precision investment casting patterns.
The base of the LSPc process is a uniform light source, which is created through a combination of an ultraviolet (UV) light array and the LSPc optical layer. This uniform light is then projected through the LSPc HC Mask, which is responsible for adjusting and projecting light to the appropriate regions of the vat, where photopolymerization for a specific print job is taking place layer by layer. The final part of the process involves the proprietary LSPc membrane, which both creates a no-stick zone between the cured part and vat as well as allowing resin to quickly spread across the entire vat and ensure replenishment between each layer.
Post-curing maximizes material properties, improving parts strength, and providing consistent mechanical performance part to part and build to build.
xCURE 3D printing post-processing combines heat and dual wavelength light consistently, to post-cure printed parts using a combination of material-specific prescribed sequences in a controlled chamber. xCURE accommodates parts as large as 16 liters in volume and is designed to process the entire print envelope of Nexa3D’s NXE 400 printer. The chamber can accommodate up to three build plates at once and allows parts to cure directly on the build plate or be placed in a basket and cured individually.
xCURE 3D printing post-processing tools include high-power LEDs that operate at dual wavelengths, as well as in sequential UV and thermal curing modes. It comes pre-loaded with validated workflow-curing recipes for all approved Nexa3D photoplastic materials and is easily upgradeable for additional materials. xCURE is built to global industrial construction and safety standards and operates in three curing modes: UV only, heat only and UV+heat.
xCURE delivers optimal post-processing of 3D printed parts and effective curing cycles that guarantee consistent mechanical properties and predictable part performance.
Nexa3D’s xWASH matches the build volumes and process requirements of the ultrafast NXE400 3D printer, and is engineered for Nexa3D’s photoplastic materials, giving manufacturers a powerful, consistent, and sustainable washing solution.
The xWASH is optimized for and validated with Nexa xCLEAN, which offers 3X saturation limits, environmentally friendly recycling options, and enhanced chemical/flash-point safety characteristics.
The xWASH directly accommodates the full NXE200 build volume, accepts up to two NXE200 build platforms simultaneously for streamlined post-processing workflow, or the option of a loose parts basket for production flexibility; it can also accept the full NXE200 build volume. Bi-directional agitation with variable speeds ensures efficient cleaning regardless of part geometry, and an adjustable cleaning timer allows optimized cleaning time based on part geometry and resin type. Dedicated drain and fill ports facilitate easy maintenance; a pot life timer notifies when the cleaner has reached saturation limits. A tritan plastic reservoir provides clear process and cleaner level viewing and provides maximum durability for production environments.
The ability to automatically raise and lower the Z-axis with a secondary lid/cover provides an extra safeguard from chemical exposure and reduces solvent evaporation.
A touch screen user interface makes it easy to set bath cleaning duration, agitation speed/direction, and cleaner useful life.
The Wash+Cure is tailored for washing and post-curing the parts printed on the XiP printer. It's is an all-in-one, automated post-processing system.
Our Everlast-2 Membrane offers superior print speed, surface finish, and fidelity as well as tremendous functional durability — lasting 50,000+ printed layers or up to 25x longer than alternative interface layer technologies.
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