FusFun™ ABS-GF is a high-strength ABS-based 3D printing filament with outstanding mechanical properties. Due to the addition of chopped glass fibers, the tensile strength of its 3D printed parts in the XY axis direction can be close to 40MPa. The glass fiber has also improved its dimensional stability. Therefore, FusFun™ ABS-GF is ideal for printing functional prototypes, jigs and low-volume production parts. The main raw material of FusFun™ ABS-GF is an ABS resin synthesized by continuous bulk polymerization technique. Thanks to this advanced production process, the residual amount of solvents and monomers used in the production process in the final ABS product is so low that the filament has a low odor during printing. FusFun™ ABS-GF can be used together with FusFree™ S-Multi Quick-Remove Support Material to solve the poor surface of complex model above supports.
Product highlights
FusFun™ ABS-GF is an ABS-based filament specially developed for 3D printing and it is
Product introduction
FusFun™ ABS-GF is a high-strength ABS-based 3D printing filament with outstanding mechanical properties. Due to the addition of chopped glass fibers, the tensile strength of its 3D printed parts in the XY axis direction can be close to 40MPa. The glass fiber has also improved its dimensional stability. Therefore, FusFun™ ABS-GF is ideal for printing functional prototypes, jigs and low-volume production parts. The main raw material of FusFun™ ABS-GF is an ABS resin synthesized by continuous bulk polymerization technique. Thanks to this advanced production process, the residual amount of solvents and monomers used in the production process in the final ABS product is so low that the filament has a low odor during printing. FusFun™ ABS-GF can be used together with FusFree™ S-Multi Quick-Remove Support Material to solve the poor surface of complex model above supports.
Product details
| Parameter | Value / range |
|---|---|
| Color | Black, Red, Yellow, Orange, Blue, Grey, Green |
| Filament Ø | 1.75 mm |
| Net weight | 2.5 / 3 kg |
Material properties
Physical properties
| Property | Test method | Typical value |
|---|---|---|
| Density | ISO 1183 | 1.08 g/cm³ |
| Melt index | - | 250 g/10min |
| Glass transition temperature | ISO 11357 | 101 °C |
Thermal properties
| Property | Test method | Unit | Typical value |
|---|---|---|---|
| - | |||
Mechanical properties
| Property | Test method | Unit | Typical value |
|---|---|---|---|
| Tensile Modulus XY | ISO527 | MPa | 3213 ± 82.78 |
| Elongation at Break XY | ISO527 | % | 2.80 ± 0.21 |
| Flexural Strength XY | ISO178 | MPa | 66.21 ± 0.42 |
| Flexural Modulus XY | ISO178 | MPa | 2681 ± 24.99 |
| Notched Impact XY | ISO179 | kJ/m² | 8.17 ± 0.66 |
| Tensile Strength Z | ISO527 | MPa | 19.02 ± 0.9 |
| Tensile Modulus Z | ISO527 | MPa | 2331 ± 130 |
| Elongation at Break Z | ISO527 | % | 1.28 ± 0.32 |
Printed specimen parameters:Specimens printed under the following conditions: Nozzle size 0.4mm,Nozzle temp 250°C, Bed temp 100°C, Print speed 50mm/s, Infill 100%, Infill angle ±45°
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