Markforged X3 / X7 Industrial 3D Printers – Gen 2
X3 / X7 Features
• Onyx, Onyx FR, Onyx ESD, TPU, PLA Composite Material Support
• X7 – Fiberglass, Kevlar, Carbon Fiber
• Laser Bed Leveling
• Adaptive Bed Leveling During Print
• Dual Extruder Printhead
• Parts Strong as 6061-T6 Aluminum
• Strong, Accurate, Beautiful Parts
• Removable Printbed
• Eiger Basic Cloud Slicing Software
• Includes Printer, Drybox, Spare Nozzles, Toolkit
Uncompromised Strength, Precision and Beauty
The Markforged Industrial Series are the most powerful 3D printers on the market. With industrial-scale printing
of incredibly strong parts and first ever precision sensing systems, the X3, X5 & X7 are destined
to be the must-have printers for every manufacturer. These printers combines the benefits of
Markforged’s unique fiber reinforcement for parts as strong as metal with advanced “build
as designed” sensors and the beautiful surface finish of Onyx. The Industrial Series will empower you
to take any design concept and make it a reality.
Large Prints, High-Resolution
The large build volume of the Markforged Industrial Series makes it ideal for robotics, automotive parts,
functional prototypes and prosthetics. With 50 micron resolution layer height, your
parts will come out of the printer with a beautiful surface finish approaching the
look and feel of injection molding.
|Printing Technology:||Fused Filament Fabrication (FFF)Composite Filament Fabrication (CFF)|
|Material Compatibility:||Carbon Fiber, Fiberglass, Kevlar, Nylon (Onyx)|
|Build Size(xyz):||12.99 x 9.84 x 7.87 Inches (330 x 250 x 200mm) |
12.99 x 10.63* x 7.87
(330 x 270 x 200mm)
*Printing Onyx Only
|Extruders:||Dual Quick Change|
|Accuracy:||50 Micron (.002″ xy) – 100 Micron (.004″ z)|
|Layer Resolution:||Onyx: 50, 100, 200 Micron (.002″- .008″) / Kevlar & FiberGlass: 100 Micron (.004″) / Carbon Fiber: 125 Micron (.005″)|
|Min Feature Size (Nylon Only):||1.6mm|
|Min Detail Size:||0.8mm|
|Min Wall Thickness (To Add Fiber) :||2.6 – 3.0mm|
|Moving or Interlocking Parts (Clearance between parts):||0.5mm|
|Overhangs & Supports:||40+ Degrees Requires Support|
|Nozzle Widths:||Plastic/Nylon = .4mm wide / Fiber = .9mm wide|
|Filament Diameter:||Kevlar & Fiberglass =.34mm / Carbon Fiber = .38mm / Plastic & Nylon =1.75mm|
|Printer Dim (L x W x H):||22.6 x 18.4 x 36. 5 Inches (575 x 467 x 928 mm)|
|Chassis:||Anodized Aluminum Unibody|
|Build Platform:||Kinematically Coupled|
|Draft Blocking Enclosure:||Yes|
|Printer Shipping Weight/Dim:||75lbs, 35 x 25 x 30 Inches|
|Supported OS:||Mac OS 10.7 Lion +, Win 7+, Linux*|
|Supported Browser:||Chrome 30+|
|Connectivity:||WiFi, Ethernet, USB Drive|
Our Most Advanced Material For High-Performance 3D Printing. Onyx is a Black Nylon
infused with Chopped Carbon Fiber.
47% More Heat Resistant
ONYX – NO POST PROCESSING Delivers stunning matte black finish without mechanical or chemical finishing.
ONYX – ACCURATE STABLE PARTS Added Micro-Carbon Fiber delivers increased dimensional stability and near 100% print success rate.
ONYX – MARKFORGED ADVANTAGE Onyx can be used alone or further reinforced with Fiberglass, Kevlar & Carbon Fiber.
Carbon fiber has the highest strength to weight as well as the highest thermal conductivity. Perfect for applications requiring the greatest possible stiffness and strength.
High Strength, High Temperature (HSHT) Fiberglass is a material uniquely designed for users who need strong parts in higher temperature environments (over 105°C, with a heat deflection point of 140°C).
Fiberglass is the most cost-effective material. It’s a strong as Carbon Fiber, but 40% as stiff, and 2X the weight. Suited to everyday applications where you need strong parts.
Kevlar has the best abrasion resistance and is our most flexible material. For when you need parts that are durable and resistant to impact.
Higher strength-to-weight than 6061 Aluminum
The Mark Two prints outer contours and curves in engineering nylon and fills each part with close-packed reinforcement in continuous carbon fiber, Kevlar or fiberglass.
The printer actively switches between two nozzles during a print, creating fiber-reinforced plastic parts with a strength-to-weight ratio better than aluminum.