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ASA+AF Filament - 1.75 mm - 0.75 kg

Filament available in the new spool system. Compatible with BambuLab AMS.

Fiberlogy ASA+AF is an advanced filament designed for demanding technical and industrial applications. It combines ASA’s resistance to UV radiation, moisture and high temperatures with the exceptional strength of aramid fibers (Kevlar®). As a result, the material performs perfectly wherever the finished print must withstand intensive use, impacts and long-term operation in outdoor conditions.

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Natural

The presented colors are for reference only and may differ from the actual filament color depending on screen settings.

€40.71

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Product description

Filament available in the new spool system. Compatible with BambuLab AMS.

The addition of aramid fibers increases the mechanical resistance of printed parts, improves their durability and reduces the risk of crumbling and cracking under load. The filament also features very good layer bonding (adhesion) and reduced shrinkage, allowing larger models to be printed while maintaining high dimensional stability. Its distinctive matte, raw surface finish gives prints a professional look typical of composite materials.

ASA+AF filament retains all the advantages of classic ASA while offering even higher resistance to wear and mechanical damage. The material has a reduced coefficient of friction, providing increased abrasion resistance (tribological wear resistance). Thanks to its resistance to UV radiation and weather conditions, the material is ideal for outdoor applications such as automotive parts, drone components, device housings and parts exposed to impacts and changing temperatures. The filament is heat resistant up to 94°C.

To achieve optimal printing parameters, the use of an enclosed heated chamber and a hardened steel nozzle resistant to abrasion caused by aramid fibers is recommended.

Properties:

high impact and mechanical damage resistance
resistance to UV radiation and weather conditions
heat resistance up to 94°C
very good layer bonding
reduced material shrinkage
matte, technical surface finish
high dimensional stability of printed parts

Print settings

Printing temperature 255-270°C
Bed temperature 110°C
Build surface Smooth PEI + adhesive; Textured PEI; Glass + adhesive
Drying conditions 80°C / 4h
Enclosure recommended
Cooling fan 0-25%

Properties

Density 1.07 g/cm³
Tensile Strength @ Yield 43 MPa (ISO 527)
Tensile Modulus 2500 MPa (ISO 527)
Elongation @ Yield 3% (ISO 527)
Elongation @ Break 25% (ISO 527)
Izod Impact Strength (Notched) @ 23℃ 10 kJ/m2 (ISO 180)
Heat Distortion Temperature @ 0.45 MPa 96°C (ASTM D648)
Heat Distortion Temperature @ 1.8 MPa 87°C (ASTM D648)
Vicat Softening Temperature 96°C (ASTM D1525)

To make it easier to choose the right color variant, we provide RAL and Pantone equivalents for filaments wherever possible. The given values are approximate and are intended to reflect the actual filament shade as closely as possible.

Why not HEX?

Providing the color of 3D printing filament in HEX format does not make sense because this notation was created to describe colors displayed on screens (RGB – monitors, TVs, mobile devices). HEX defines a mix of red, green and blue light, meaning a digital color. With filaments, however, we deal with a physical material. The same filament may look different in various photos and HEX cannot accurately represent the actual appearance of the material.

Much better references are color systems used in printing and industry, such as RAL or Pantone, which are based on real samples and allow for comparison of colors in physical reality.