Warp Free: PolyMide™ CoPA is engineered to give excellent dimensional stability during printing, with near-zero warping.
Easy Printing: Unlike other Nylon filaments, PolyMide™ CoPA is extremely easy to work with. It is compatible with most filament-based 3D printers with no heated chamber/bed required!
Strong & Tough: The outstanding mechanical strength and toughness makes PolyMide™ CoPA the best choice of engineering material for your creative ideas!
Heat Resistant: With a high softening temperature of ~180 °C, PolyMide™ CoPA is one of the most heat resistant 3D printing materials in the market.
PolyMide™ CoPA is based on a copolymer of Nylon 6 and Nylon 6,6. The filament combines excellent strength, toughness, and heat resistance of up to 180˚C.
We recommend that the material be used with PolyBox™ (purchased separately) to keep it at dry conditions (relative humidity of 20% or less) at all times to make sure a best printing
Additional information
Specification: PolyMide™ CoPA 1.75 mm
Header
PolyMide™ CoPA 1.75 mm
Brand
Polymaker
Weight
0.75
Material name
PolyMide™ CoPA 1.75 mm
Technology
FDM
How it comes
Filament
Material group specific material type
Nylon
Features
Warp Free: PolyMide™ CoPA is engineered to give excellent dimensional stability during printing, with near-zero warping.
Easy Printing: Unlike other Nylon filaments, PolyMide™ CoPA is extremely easy to work with. It is compatible with most filament-based 3D printers with no heated chamber/bed required!
Strong & Tough: The outstanding mechanical strength and toughness makes PolyMide™ CoPA the best choice of engineering material for your creative ideas!
Heat Resistant: With a high softening temperature of ~180 °C, PolyMide™ CoPA is one of the most heat resistant 3D printing materials in the market.
Colour
Black
Company
Polymaker
Continent
Asia
Country
China
Name
PolyMide
Diameter
1.75 mm
Spool
Yes
Min printing temperature
250
Max printing temperature
265
Compatibility
All
Legal Disclaimer
3DC LTD is not liable for the accuracy of the information contained within this database. Please consult directly with the relevant machine and/or material manufacturers before determining fitness for a particular use.