FusFun™ PLA-Aero Pro is a type of lightweight 3D printing material specially developed for aircraft model, ship model, drone and other fields. PLA-Aero Pro controls the foaming ratio of the material by adjusting the temperature during the printing process so that the density of the material extruded by the nozzle can be adjusted within a certain range. With this technique, it is easy to reduce the weight of the model. In the best-case scenario, the model weight can be reduced to 40% of a model printed with ordinary PLA. In addition to that, the matte texture of the printed surface can reduce the visibility of printed layers and thus give a smooth surface finish.
Product highlights
On-Demand Foaming Technology
FusFun™ PLA-Aero Pro is a PLA filament that will start foaming with the aid of a blowing agent during the printing process. The blowing agent is in an unfoamed state in the PLA filament before printing. During the printing process,by adjusting the printing temperature, the foaming ratio of the blowing agent can be easily controlled. The maximum foaming ratio can reach 250%.
Product introduction
FusFun™ PLA-Aero Pro is a type of lightweight 3D printing material specially developed for aircraft model, ship model, drone and other fields. PLA-Aero Pro controls the foaming ratio of the material by adjusting the temperature during the printing process so that the density of the material extruded by the nozzle can be adjusted within a certain range. With this technique, it is easy to reduce the weight of the model. In the best-case scenario, the model weight can be reduced to 40% of a model printed with ordinary PLA. In addition to that, the matte texture of the printed surface can reduce the visibility of printed layers and thus give a smooth surface finish.
Product details
| Parameter | Value / range |
|---|---|
| Color | White, Grey |
| Filament Ø | 1.75 mm |
| Net weight | 1 kg |
Material properties
Physical properties
| Property | Test method | Typical value |
|---|---|---|
| - | ||
Thermal properties
| Property | Test method | Unit | Typical value |
|---|---|---|---|
| - | |||
Mechanical properties
| Property | Test method | Unit | Typical value |
|---|---|---|---|
| Tensile Modulus XY | ISO527 | MPa | 820.31 ± 8.82 |
| Tensile Break Strength XY | ISO527 | MPa | 10.65 ± 0.09 |
| Elongation at Break XY | ISO527 | % | 9.17 ± 0.61 |
| Flexural Strength XY | ISO178 | MPa | 19.27 ± 0.09 |
| Flexural Modulus XY | ISO178 | MPa | 872.93 ± 55.10 |
| Notched Impact XY | ISO179 | kJ/m² | 2.93 ± 0.15 |
| Tensile Strength Z | ISO527 | MPa | 5.06 ± 0.19 |
| Tensile Modulus Z | ISO527 | MPa | 419.05 ± 14.60 |
| Elongation at Break Z | ISO527 | % | 10.91 ± 2.01 |
Printed specimen parameters:Specimens printed under the following conditions: Nozzle size 0.4mm,Nozzle temp 260°C, Bed temp 50°C, Print speed 60mm/s, Infill 100%, Infill angle ±45°,flow rate 0.4
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