| Onyx |
| Nylon |
| Carbon fiber |
| Aramid fiber (Kevlar) |
| Fiberglass |
| Fiberglass (HSHT) |
Base materials
Features
Base material for composites, nylon reinforced with carbon microfibers that allows the creation of parts with a virtually flawless finish.
This material has great strength, toughness, and chemical resistance when printed alone or reinforced.
Applications
– Spare parts for plastic parts
– Housings
– Sensor brackets
– Aesthetic prototypes
FLEXURAL
STRENGTH
Images belong to markforged.com
Base materials
Features
Nylon is a thermoplastic. It is a non-abrasive material suitable for ergonomic surfaces and for holding parts that are easily damaged. It can also be painted or dyed.
Applications
– Ergonomic tools
– Mounting trays
– Aesthetic parts
ELONGATION
AT BREAK
Images belong to markforged.com
Reinforceable materials
Features
Material with excellent mechanical properties, it has one of the highest strength-to-weight ratios, higher than steel and titanium.
Strength comparable to 6061-T6 aluminum. It is extremely rigid and stable and can be incorporated into a variety of geometric structures.
Applications
– Heavy-duty tools and accessories.
– Fasteners and supports.
– Assemblies and inspection devices.
– Customized end-use parts.
RESISTANCE TO STRESS
BENDING STRENGTH
Images belong to markforged.com
Reinforceable materials
Features
Material with high mechanical properties
20 times stronger and 10 times stiffer in tension than an ABS printed part.
Applications
– Soft jaws.
– Medium resistance tools.
– Insulating reinforcements.
– Hand tools.
TENSILE STRENGTH
FLEXURAL STRENGTH
Images belong to markforged.com
Reinforceable materials
Features
Strong and highly compatible continuous fiber for high-impact applications.
It is perfect for use on parts that are in demanding environments or are subject to repetitive loads.
Applications
– Tools
– Impact supports
– Delrin® parts replacements
– Wear buffers
TENSILE STRENGTH
FLEXURAL STRENGTH
IZOD IMPACT
Images belong to markforged.com
Reinforceable materials
Features
Fire retardant fiberglass.
– Resistance to high temperatures.
As a result, HSHT reinforcement is used in parts in high-temperature environments such as molds and autoclaves.
Applications
– Polymer molds.
– High temperature fasteners.
– High temperature prototypes.
TENSILE STRENGTH
FLEXURAL STRENGTH
TEMPERATURE OF DEFLEXION
Images belong to markforged.com
