Carbon Fiber ABS CF 1.75mm 1KG 3D print filament combines Of ABS With Short-Cut carbon fiber to Reinforce filament strength.

Printed Parts appears Matte Looks, Makes your parts with great industral appearance.

Hugh Rigidity Resistant to deformation, Easy to print with excellent results, Suitable for printing parts and components.

ABS-CF Printing Tip

1. Like all ABS, ABS CF must be kept dry! If it does not remain packaged with desiccant, it will readily absorb moisture from the air; this will lead to degraded print quality and wasted filament. You can dry it out by using a filament dryer for more precise dehydration for all filament types.
2. It's necessery to use an all-metal hot end when printing with carbon firber filaments. Micro Swiss offers an all-metal hot end, but alternatives like those from E3D or Slice Engineering are also viable options. It's essential to upgrade the nozzle as well. The brass or the plated copper nozzles are not suitable for abrasive materials. Instead, options like hardened steel, ruby-tipped, Creality Unicorn Tri-Metal nozzle or Nozzle X from E3D are recommended for printing with abrasives. The market has increased prevalence of enclosed consumer-grade 3D printers equipped with hardened extruders and nozzles capable of handling such materials, such as Creality K1C, Bambu X1, X1C, etc.

Size:1.75mm+/-0.03mm
Printing Temperature Nozzle: 235 - 270℃
To be used in conjunction with a hardened steel nozzle

ABS CF Properties

Carbon Fiber ABS 3D Printing Filament
Physical Properties	Unit	Typical Value
Density	g/cc	1.11
Mechanical Properties	Unit	Typical Value
Tensile Strength, Break	MPa	46
Tensile Modulus	MPa	5210
Tensile Elongation, Break	%	2
Flexual Strength	MPa	76
Flexual Modulus	MPa	5260
Thermal Properties	Unit	Typical Value
Glass Transition Temperature(Tg)	℃	105
Deflection Temperature at 0.45 MPa(66psi)	℃	76

What's in the Package:
ABS Carbon Fiber 1.75mm * 1KG spool

Carbon Fiber PETG, PETG-CF 1.75mm 1KG 3D printer Carbon Fiber PETG, PETG-CF 1.75mm 1KG 3D printer filament. PETG carbon fiber, combination of PETG With Short-Cut carbon fiber to reinforce filament strength.
Printed Parts Appears Matte Looks, Makes your parts with great industral appearance instructions for use

PETG-CF Printing Tips

It's necessery to use an all-metal hot end when printing with carbon firber filaments. Micro Swiss offers an all-metal hot end, but alternatives like those from E3D or Slice Engineering are also viable options.                                                                                 
It's essential to upgrade the nozzle as well. The brass or the plated copper nozzles are not suitable for abrasive materials. Instead, options like hardened steel, ruby-tipped, Creality Unicorn Tri-Metal nozzle or Nozzle X from E3D are recommended for printing with abrasives.                                                                                                 
The market has increased prevalence of enclosed consumer-grade 3D printers equipped with hardened extruders and nozzles capable of handling such materials, such as Creality K1C, Bambu X1, X1C, etc.                                                                             
3D Printer Filament PETG Carbon Fiber 1.75mm
Size: 1.75mm+/-0.03mm
Nozzle Printing Temperature: 215 - 255℃
to be used in conjunction with a hardened steel nozzle.                                                   
What's in the Package:
1kg spool PETG-CF filament

Nylon CF is an engineering grade nylon filament which is blended with chopped carbon fibers (approximately 15% by weight), creating a high-strength filament capable of printing tough, shatter-resistant, functional parts. This filament is ideal for anyone that desires a structural component with high modulus, improved chemical and thermal resistance, excellent surface quality, and ease of printing.
Engineering-grade CF Filaments add stability and rigidity to the filament, so parts are much less likely to warp than with standard nylon. This means that printing with Nylon CF is actually easier than printing with traditional nylon while providing parts that are durable and stiff from the carbon fiber. Additionally, less warping means you can enjoy more accurate printed parts with fewer failed prints.
Nylon CF is the perfect blend of strength and durability; If you are already printing with nylon it's time to upgrade. Nylon CF components print with a fantastic matte finish that requires no post-processing. The high precision of this filament makes it a potential replacement for aluminum using 3D printing instead of CNC milling.

What Can You Create WITH Nylon CF?
RC Cars, Drone Parts, Sports Accessories, Gears, Fittings for Home Furnishings, Artistic 3D Prints, and many more!

Nylon CF Printing Tips
Like all nylons, Nylon CF must be kept dry! If it does not remain packaged with desiccant, it will readily absorb moisture from the air; this will lead to degraded print quality and wasted filament. You can dry it out by using a filament dryer for more precise dehydration for all filament types.
It's necessery to use an all-metal hot end when printing with carbon firber filaments. Micro Swiss offers an all-metal hot end, but alternatives like those from E3D or Slice Engineering are also viable options. It's essential to upgrade the nozzle as well. The brass or the plated copper nozzles are not suitable for abrasive materials. Instead, options like hardened steel, ruby-tipped, Creality Unicorn Tri-Metal nozzle or Nozzle X from E3D are recommended for printing with abrasives. The market has increased prevalence of enclosed consumer-grade 3D printers equipped with hardened extruders and nozzles capable of handling such materials, such as Creality K1C, Bambu X1, X1C, etc.

Slicer Settings for Nylon CF

Nominal Diameter: 1.75mm ± 0.02mm
Print temperature: 250-265°C
Print speed: 25mm/s - 35mm/s
first layer speed: around 15mm/s
Bed temperature: 60-65°C for Garolite, 80°C for Glass with glue stick
Spool Dimensions: 7.88" OD x 2.12" ID x 2" Height
Nozzle: Stainless Steel, Olsson Ruby, or other hardened steel nozzles