Form 4L and its biocompatible version, Form 4BL, are built on the same groundbreaking Low Force Display™ (LFD) technology as Form 4 and Form 4B, but built for delivering parts nearly five times bigger than what is possible on our desktop models.
Turn your ideas into reality faster than ever with easy workflows, leading reliability, and stunning part quality using the Form 4 ecosystem.
Form 4L’s speed is driven by Formlabs’ new Low Force Display™ Print Engine, a powerful combination of ultra-high power LEDs, collimating lenses, optical filters, and a robust liquid crystal display. Together they cure each layer of resin rapidly — regardless of part size or quantity. With tight tolerances, parts printed in every resin on Form 4L will match your design parameters, every time.
Accelerate Your Production with Rapid Turnaround
With the Form 4, you can get more done in record time. Most prints complete in under two hours, so you can spend less time waiting and more time innovating.
Typical print times are based on an 80th percentile print height of 53mm at 100 μm layer thickness across various materials.
Fast: Achieve most prints in under two hours.
Versatile: Access an extensive range of advanced materials.
Intuitive: Master operation in about 15 minutes.
Reliable: Experience best-in-class print success rates.
Exceptional Quality: Produce finished pieces that rival injection-molded parts.
Previously offered as the DMP Pro, PX100 is the culmination of nearly 20 years of development by Digital Metal®. It draws upon a platform that has produced hundreds of thousands of high-quality components.
With its 2-in-1 technology, ergonomic design, and excellent software algorithms, the EinScan H2 is a versatile solution fit for many use cases. Use it anywhere, any time, for prosthetics, virtual display, cultural preservation, digital art, custom-fit clothing, education, furniture design, and much more.
The minimum point distance can reach
to reproduce fine details on the surface in its inner position of 150 mm x 96 mm
The scanning process is fully automatic with the turntable. Combined with the scanning software's stitching algorithm, this ensures the efficient acquisition of 3D data without manual intervention.
The software interface guides the user through a simple operation process while providing powerful tools for the hustle-free optimization of the scan results.
FX10 prints continuous carbon fiber reinforced parts for a wide range of factory floor applications — helping manufacturers increase speed to market, slash fabrication and inventory costs, and de-risk line down events.
We designed every aspect of FX10 — from its motion system to the software that powers it — around delivering accurate, strong parts reliably. Backed by Simulation and Inspection software, FX10 can produce verified parts that meet stringent factory floor requirements.
FX10 operates on the Digital Forge: Markforged’s additive platform that features intuitive device and desktop software, training, and built-in cost calculation. You can start generating ROI on day one and effortlessly scale to more teams, machines, and facilities.
The MJP 300W 3D printer adjusts to your manufacturing workflow with increased flexibility, efficiency and quality in jewelry casting patterns production. Choose from four printing modes to match the level of speed, geometric complexity and surface quality your designs require. It enables high-volume production or rapid single-lane printing at fast print speeds, resulting in improved casting room efficiency. With its large build volume capacity and 24/7 operation, this next generation wax 3D printer ensures high productivity, leading to fast amortization and a high return on investment.
Optimize your file-to-pattern workflow with the advanced capabilities of 3D Sprint® software. Benefit from the printer’s fast and versatile MJP print speeds, along with batch support removal, to deliver high-quality, ready-to-cast jewelry patterns.
Choose the ideal print mode to maximize productivity for various styles and types of jewelry.
Low Volume Production, Prototyping, Medical Models, Hospital Ready Parts, Clean Room Parts
Education: Primary, middle and high school, K12 education, training on 3D design
Design & Art: High-quality 3D design, 3D printing applications, reverse engineering
Digital Industry: Animation, CG, VR&AR
Archiving and Sharing: 3D digital archiving, data sharing
Education: Primary, middle and high school, K12 education, training on 3D design
Design & Art: High-quality 3D design, 3D printing applications, reverse engineering
Digital Industry: Animation, CG, VR&AR
Archiving and Sharing: 3D digital archiving, data sharing
3D Printing, Education, Culture and Art, Design, Digital Archiving, VR&AR
High Temperature Applications, Protorying, Low Volume Production Parts, Medical Device Manufacturing, Aerospace Components, Jigs & Fixtures, Soft Jaws, End of Arm Tooling, Work Holdings, Prototyping, End Effextor, CMM Fixtures
High Temperature Applications, Protorying, Low Volume Production Parts, Medical Device Manufacturing, Aerospace Components, Jigs & Fixtures, Soft Jaws, End of Arm Tooling, Work Holdings, Prototyping, End Effextor, CMM Fixtures
High Tempurature Applications, Prototyping, Low Volume Production Parts, Medical Device Manufacturing, Aerospace Components, Jigs & Fixtures, Soft Jaws, End of Arm Tooling, Work Holdings, Prototpying, End Effextor, CMM Fixtures
Jigs & Fixtures, Soft Jaws, End of Arm Tooling, Work Holdings, Prototyping, End Effextor, CMM Fixtures , Replacing Machined Aluminium
Jigs & Fixtures, Soft Jaws, End of Arm Tooling, Work Holdings, Prototyping, End Effextor, CMM Fixtures
Jigs & Fixtures, Soft Jaws, End of Arm Tooling, Work Holdings, Prototyping, End Effextor, CMM Fixtures , Replacing Machined Aluminium
Jigs & Fixtures, Soft Jaws, End of Arm Tooling, Work Holdings, Prototyping, End Effextor, CMM Fixtures
Jigs & Fixtures, Soft Jaws, End of Arm Tooling, Work Holdings, Prototyping, End Effextor, CMM Fixtures
R&D, Medical Device Manufacturing
R&D, Medical Device Manufacturing
R&D, Medical Device Manufacturing
Low Volume Production, Prototyping, Medical Modeling, Medical Device Manufacturing
Volume Production, Prototyping, Medical Modeling, Medical Device Manufacturing
Volume Production, Prototyping, Medical Modeling, Medical Device Manufacturing
Low Volume Production, Prototyping, Medical Modeling, R&D
Prototyping, Indirect Production, Concept modeling, Rapid design iteration, Jigs and fixtures, Patterns and moulds, Large Parts
Prototyping, Indirect Production, Concept modeling, Rapid design iteration, Jigs & fixtures, Patterns and Moulds
Low Volume Production, Prototyping, Medical Models, Hospital Ready Parts, Clean Room Parts