Models available: Markforged Onyx One Markforged X3 Many FDM models from numerous OEM s worldwide

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2 Markforged Onyx One Markforged X3 Many FDM models from numerous OEM s worldwide FFF uses a string of solid material (filament), pushing it through a heated nozzle and melting it in the process. The printer continuously moves this nozzle around, laying down the melted material at a precise location, where it instantly cools down and solidifies. This builds up the model layer by layer. A unique professional-grade filament made of chopped carbon fiber named Onyx is used.

3 Markforged Onyx Professional Markforged Mark Two Markforged X5 Markforged X7 Fiber-reinforced FFF printing was introduced by Markforged as the world's first CCF printer. Combining carbon-reinforced nylon with revolutionary continuous fiber results in amazingly strong (as aluminum) parts. Print end-use reinforced parts in lightweight continuous Carbon Fiber, Kevlar and (High Temp) Fiberglass with remarkable strength and dimensional stability.

4 3DS ProJet CJP 360 (mono) 3DS ProJet CJP 260C (CMY) 3DS ProJet CJP 460 Plus (CMY) 3DS ProJet CJP 660 Pro (CMYK) 3DS ProJet CJP 860 Pro (CMYK) CJP involves two major components: core and binder. The core material is a premium composite spread in thin layers over the build platform with a roller. After each layer is spread, color binder is selectively jetted from inkjet printheads over the core layer, which causes the core to solidify. Multiple printheads provide the best range of accurate and consistent colors, including gradients. The build platform lowers with every subsequent layer, resulting in a full-color three-dimensional model.

5 3DS ProJet MJP DS ProJet MJP 2500 Plus 3DS ProJet MJP DS ProJet MJP 3600 Max 3DS ProJet MJP 5600 MJP builds up an object by jetting a photopolymer though a printhead before solidifying it using a UV light. It combines professional grade 3D printing capabilities with an affordable price, an office-friendly footprint and easy part processing. Advantages include true-to-cad quality and accuracy, superior edge fidelity, smooth surface finish, and rigid or elastomeric materials for true functional testing.

6 3DS ProJet DS ProJet DS ProX 800 3DS ProX 950 Stereolithography is a 3D printing technology that works via a process called vat photopolymerization. Objects are built in layers using a laser beam to trace out and solidify each successive layer of an object on the surface of a vat of liquid photopolymer.

7 3DS ProX SLS 500 3DS spro 60 HD-HS 3DS spro 140 3DS spro 230 SLS technology uses a laser to harden and bond (fuse/sinter) small grains of plastic, ceramic, glass, or other materials into layers in a 3D dimensional structure. The laser traces the pattern of each cross section of the 3D design onto a bed of powder. After one layer is built, the bed lowers and another layer is built on top of the existing layers, until every layer is built and the part is complete.

8 Markforged Metal X An industrial metal printing method by Markforged, using metal powders encased in plastic binders. When the plastic is melted off, the metal powders can be arranged in exquisite shapes. The plastic dissolves and the metal is sintered into a design. The process works layer by layer as metal crystals pass through the bonds of the printed layers. This allows for an entire part to be created seamlessly with immense structural durability, speed and accuracy.

9 3DS ProX DMP 100 3DS ProX DMP 200 3DS ProX DMP 300 3DS ProX DMP 320 3DS ProX DMP 100/200 Dental DMP (just like SLS) uses a laser to selectively heat and fuse a bed of fine metal powder, in order to build up a 3D object in layers. Also referred to as Direct Metal Laser Sintering (DMLS). DMP printers create chemically pure, fully dense metal parts, delivering accuracy and repeatability of about 20 microns in all three axes. Materials include stainless steel, tool steel, super alloys, non-ferrous alloys, cobalt-chrome, titanium and aluminum.