MakerBot METHOD X 3D Printer - Carbon Fiber Edition, Academic Discount | Education Discount at JourneyEd.com
MakerBot
Product ID: 1879363 | Mfg Part #: 900-0074A
$6,999.00
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Limited Supply as of October 26th

Once order has been processed, this item is not returnable.



Replace metal parts with 3D printed Carbon Fiber on METHOD

Replace metal parts with 3D printed Carbon Fiber on METHOD

Print carbon fiber reinforced nylon and other engineering-grade composite parts with three-dimensional strength and accuracy like never before on METHOD’s unique industrial desktop platform.

Features: 

  • Circulating Heated Chamber
  • Includes MakerBot Composite and Support Performance Extruders
  • Dry-Sealed Material Bays
  • Pre-Print Material Drying
  • Post-Wash Part Annealing
  • Ultra-Rigid Metal Frame
  • MakerBot Cloud Connected

STRONG, HEAT-RESISTANT METAL REPLACEMENT PARTS

Carbon fiber reinforced nylon is optimized for high strength, stiffness, and heat resistance making it ideal for structural applications and metal replacements.

  • Excellent strength to weight ratio - 110 MPa TS - for lightweighting applications such as robotic end effectors
  • Engineering-grade stiffness - 7600 MPa Tensile Modulus - for structural applications such as vehicular brackets and inspection gauges
  • High heat resistance under load - 184°C HDT - for optimal under-hood and tooling applications

SUPERIOR NYLON CARBON FIBER PARTS WITH METHOD

METHOD’s unique industrial feature set produces carbon fiber parts with superior three-dimensional strength and accuracy.

  • METHOD’s Heated Chamber delivers parts that are strong and and accurate.
  • Outstanding surface finish that hides layer lines thanks to METHOD’s Ultra-Rigid Metal Frame.
  • Print the most complex geometries including internal cavities with soluble support, or use breakaway support for faster print times.
  • METHOD’s sealed filament bays help keep the material dry, resulting in better print quality and reliability, and METHOD’s pre-print spool drying feature allows for the recovery of oversaturated filament.

 

SPECS

HEATED CHAMBER TEMPERATURE

METHOD : 60°C   METHOD X: 110°C

DIMENSIONAL ACCURACY

± 0.2mm / ±0.007in 1

LAYER RESOLUTION

Maximum Capability: 20 - 400 micron

BUILD VOLUME

Single Extrusion

19 L x 19 W x 19.6 H cm / 7.5 x 7.5 x 7.75 in

Dual Extrusion

15.2 L x 19 W x 19.6 H cm / 6.0 x 7.5 x 7.75 in

POWER REQUIREMENTS

METHOD: 100 - 240 V3.9A - 1.6A, 50/60 Hz400 W max.

METHOD X100 - 240 V8.1A - 3.4A, 50/60 Hz800 W max.