To schedule a tour of our new Customer Experience Center go to... https://nexa3d.com How Our Industrial 3D Printers Are Different Nexa3D offers end-to-end 3D desktop and industrial grade printing systems with validated workflows, software and post-production capabilities to meet a variety of application needs. Move your production in-house or upgrade your additive manufacturing process to get the fast turnaround time and flexibility you need to scale your additive production and achieve throughput economics unachievable with traditional stereolithography (SLA) printers. When printing using traditional stereolithography (SLA) 3D printers, one of the limiting factors is the delamination forces during printing. Once layers are added during the printing process, they tend to be very fragile and sensitive to peeling forces, and that is why SLA printers print at low speed, so as not to jeopardize the print structure during the printing process. Our printers are different, in that they use a patented Lubricant Sublayer Photo-curing (LSPc) process that has a self-lubricated membrane enabling ultrafast printing from a few different angles. What our self-lubricated membrane does is eliminate the forces between the part being printed, which is in green state, and the build area. The resin, which is a viscous material, needs to move into the printed area to be able to print the next layer. The flexible membrane means we can address the issue of resin replenishment, which is unaddressable with other SLA techniques. This is because the membrane, thanks to its flexibility, helps to propagate the resin to every area of the print platform, enabling faster printing speeds than other SLA printers. Who We Are We are a team of passionate additive manufacturing practitioners that are committed to digitizing the world’s supply chain sustainably. We make the world’s fastest polymer 3D printers accessible to professionals and businesses of all sizes. Our groundbreaking technology is shattering traditional 3D printing productivity barriers and opening the aperture of additive materials. Our printers take current additive manufacturing speeds from ‘dialup internet’ to ‘broadband’ printing and are capable of continuously printing at speeds of up to 8 litters per hour. This represents up to 20x productivity gains over all current state additive products and is comparable only to injection molding economics — existing supply chain complexities, extended lead-times and the substantial costs typically associated with tooled plastics. Cutting Edge Technology We engineered from the ground up two new print engines that are designed for high speed production applications; Lubricant Sublayer Photo-curing (LSPc) for photoplastics print engine and Quantum Laser Sintering (QLS) print engine for thermoplastics. Beyond our game-changing hardware innovations, we are coding the interplay between chemistry, process and speed at scale. Our Digital Twin Printing (DTP) software unlocks new material properties and assures process stability, higher yields and performance. Our Partners We believe the best way to propel the additive manufacturing industry forward is to work together with our material partners to innovate and develop a steady stream of high performance 3D printing materials. To democratize access to production polymers, we formed partnerships with world-class material suppliers including Henkel, BASF, DSM and Evonik. Together we are unlocking the full potential of performance polymers that are addressing a broader range of industrial and medical prototyping and production use cases. Environmental Focus We are deeply committed to sustainability. We apply circular economy principles in every phase of our design and delivery process by rigorously measuring and improving on what matters: minimizing process waste, reducing energy consumption per part and working with our customers to reduce their overall carbon footprint. #3dprinting #3dprinter #engineering

3D Printing was done on a Nexa3D NXE400 3D Printer. Material: xCE-Black - High temp material with superior surface finish - similar to that of injection molded parts Designed by Davide Piran at 3DZ. For more information about Nexa3D printers go to... https://nexa3d.com How Our Industrial 3D Printers Are Different Nexa3D offers end-to-end 3D desktop and industrial grade printing systems with validated workflows, software and post-production capabilities to meet a variety of application needs. Move your production in-house or upgrade your additive manufacturing process to get the fast turnaround time and flexibility you need to scale your additive production and achieve throughput economics unachievable with traditional stereolithography (SLA) printers. When printing using traditional stereolithography (SLA) 3D printers, one of the limiting factors is the delamination forces during printing. Once layers are added during the printing process, they tend to be very fragile and sensitive to peeling forces, and that is why SLA printers print at low speed, so as not to jeopardize the print structure during the printing process. Our printers are different, in that they use a patented Lubricant Sublayer Photo-curing (LSPc) process that has a self-lubricated membrane enabling ultrafast printing from a few different angles. What our self-lubricated membrane does is eliminate the forces between the part being printed, which is in green state, and the build area. The resin, which is a viscous material, needs to move into the printed area to be able to print the next layer. The flexible membrane means we can address the issue of resin replenishment, which is unaddressable with other SLA techniques. This is because the membrane, thanks to its flexibility, helps to propagate the resin to every area of the print platform, enabling faster printing speeds than other SLA printers. Who We Are We are a team of passionate additive manufacturing practitioners that are committed to digitizing the world’s supply chain sustainably. We make the world’s fastest polymer 3D printers accessible to professionals and businesses of all sizes. Our groundbreaking technology is shattering traditional 3D printing productivity barriers and opening the aperture of additive materials. Our printers take current additive manufacturing speeds from ‘dialup internet’ to ‘broadband’ printing and are capable of continuously printing at speeds of up to 8 litters per hour. This represents up to 20x productivity gains over all current state additive products and is comparable only to injection molding economics — existing supply chain complexities, extended lead-times and the substantial costs typically associated with tooled plastics. Cutting Edge Technology We engineered from the ground up two new print engines that are designed for high speed production applications; Lubricant Sublayer Photo-curing (LSPc) for photoplastics print engine and Quantum Laser Sintering (QLS) print engine for thermoplastics. Beyond our game-changing hardware innovations, we are coding the interplay between chemistry, process and speed at scale. Our Digital Twin Printing (DTP) software unlocks new material properties and assures process stability, higher yields and performance. Our Partners We believe the best way to propel the additive manufacturing industry forward is to work together with our material partners to innovate and develop a steady stream of high performance 3D printing materials. To democratize access to production polymers, we formed partnerships with world-class material suppliers including Henkel, BASF, DSM and Evonik. Together we are unlocking the full potential of performance polymers that are addressing a broader range of industrial and medical prototyping and production use cases. Environmental Focus We are deeply committed to sustainability. We apply circular economy principles in every phase of our design and delivery process by rigorously measuring and improving on what matters: minimizing process waste, reducing energy consumption per part and working with our customers to reduce their overall carbon footprint. #3dprinting #prototyping #engineering

https://nexa3d.com/3d-printers/nxe-400pro/ Nexa3D and Addifab have partnered to superpower manufacturing possibilities! With Addifab's Freeform Injection Molding (FIM) process, 3D printed tooling unlocks geometric possibilities in injection molding. The NXE 400 3D printing system adds scalability to make this a truly industrial-ready process.

Learn more: https://nexa3d.com/3d-printers/nxd-200pro/ The NXD 200 by Nexa3D is the perfect 3D printing solution for high throughput dental applications. With an unprecedented 8.5L build volume measuring 275 x 155 x 200mm (19.8 x 6.1 x 7.8 inch) and patented LSPc technology. This complete 3D printer is ideal for dental resin models, splints, impression trays, occlusal nightguards, and more. The superior speed and workflow is complemented by intuitive interfaces and ease of use, ideal for dental labs. Build Volume: 275 x 155 x 200 mm (10.8 x 6.1 x 7.8 inch) External Dimensions: 21 x 20x 32 inch (53.34 x 50.80 x 81.28 cm) Internal Dimensions: 15.50 x 10.75 x 25.75 inch (39.37 x 27.30 x6 5.40 cm) Weight: 110 lbs empty (49.89 kg empty) Max Resolution: 4K (3840 x 2160) Pixel Pitch: 76.5 µm (0.0030 in) Wavelength: 405 nm Build Materials: UV Curable Plastics: KeyModel Ultra; KeySplint Soft; KeyGuide; KeyTray

Sustainability is a big issue in 3D printing. The assumption is that additive manufacturing is inherently more sustainable than subtractive processes, as less material waste leads to overall lower carbon footprint. That isn't enough. The benefits of additive manufacturing are real -- but so is the very immediate need to increase focus on and investment into actionable sustainability. What does that mean from a 3D printer OEM's perspective? What does "sustainability" mean for industry? How can 3D printing move beyond greenwashing? Join additive manufacturing experts Avi Reichental (Co-Founder, Chairman, and CEO) and Sarah Goehrke (Sr Director, Strategic Communications and Ecosystems) from Nexa3D for a live conversation! The pair will discuss action and impact, welcome questions, and critically examine sustainability in today's industrial 3D printing environment.