Specification Sheet
Carbon fiber reinforced nylon is optimized for high strength,
stiness, 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 eectors
• Engineering-grade stiness - 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
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.
STRONG, HEAT-RESISTANT METAL REPLACEMENT PARTS
SUPERIOR NYLON CARBON FIBER PARTS WITH METHOD
• 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
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 V
3.9A - 1.6A, 50/60 Hz
400 W max.
FEATURES
SPECS
METHOD X
100 - 240 V
8.1A - 3.4A, 50/60 Hz
800 W max.