Synced from Product Parameters V2: Basic & Appearance
| | PLA-Aero PRO effect of printing temperature on foaming |
|---|---|
| Recommended printing conditions | Nozzle Temperature230-270°COptimum foaming temperature260 ℃Recommended Nozzle Diameter≥0.4 mmRecommended build surface treatmentGlass、PEI Film or PC FilmBuild plate temperature50°CChamber TempN/ACooling fan speedOpenPrint speed30-90 mm/sRetraction distanceoffRetraction speedoffRecommended Support MaterialN/ADrying setting50-55℃ for 4-5hAnnealingN/A |
| | Nozzle Temperature230-270°COptimum foaming temperature260 ℃Recommended Nozzle Diameter≥0.4 mmRecommended build surface treatmentGlass、PEI Film or PC FilmBuild plate temperature50°CChamber TempN/ACooling fan speedOpenPrint speed30-90 mm/sRetraction distanceoffRetraction speedoffRecommended Support MaterialN/ADrying setting50-55℃ for 4-5hAnnealingN/A |
|---|
Printing Tips:Since PLA-Aero Pro adopts the “On-Demand foaming” technology, the filament will continue to expand in the nozzle after being heated during the printing process. Therefore, it will cause unavoidable stringing during the nozzle movement. Even adjusting the retraction setting in the slicing software cannot solve this problem. Based on the above, it is recommended to turn off the retraction setting. The string on the surface of models can easily be removed by hand.
| Slicer | Printer brand | Printer model | Nozzle diameter | Profile source | Compatible printers | Notes | Last modified | Action |
|---|---|---|---|---|---|---|---|---|
| BambuStudio | 拓竹 | P1S | 0.4mm | Official | P1S, P1P | 航模花瓶模式 | 260514 | Download config |
| BambuStudio | 拓竹 | P1S | 0.4mm | Official | P1S, P1P | 非航模花瓶模式 | 260514 | Download config |
Synced from the linked Product Parameters V2 record — use as a starting point for slicing and test prints.
Core temperature, speed and cooling settings from Product Parameters V2.
Nozzle, build plate and pre-print preparation recommendations.
Support material, spacing and compatible material recommendations.
FusRock 3D printing materials in the RC Planes segment, illustrated by “RC aircraft model”, balancing structural strength, print fidelity and field reliability.
FusRock 3D printing materials in the RC Planes segment, illustrated by “Aircraft Lightweight Aircraft Model Printing”, balancing structural strength, print fidelity and field reliability.
No FAQs for this product yet.
General safety (FusRock)
| How to route filament |
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|---|---|---|---|
| Moisture control |
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| Short breaks | Store in a sealed dry box or apply a simple vacuum pack; avoid direct sunlight. |
|---|---|
| Long-term storage | Return filament to the factory foil bag, squeeze out air (add a fresh desiccant pack if available), then place inside a household vacuum bag and pull vacuum. Keep in a cool, dry place away from sunlight. |
PTC compact dryer box: 60–70 °C for 4–6 hours.
Small lab oven (forced-air): temperature uniformity is often limited; spools can warp. Reduce temperature/time (example: 40–45 °C for ~4 hours) and cross-check the material-specific drying notes in the datasheet.
Important: if print quality does not improve, test with an empty spool before raising temperature—non-uniform heat can deform plastic flanges.
Large forced-air oven: 60–70 °C for 4–6 hours.
PS: Why do devices differ? Add an internal article or external link (“learn more”).
⚠ Read before drying
(Insert “warped vs normal” spool photos here.)
What moisture does to prints
| Dry | Damp |
|---|---|
| Cleaner surface, stable color, mechanical properties on spec | Pitting, stringing, whitening, weaker properties (material dependent) |
(Optional: 1 / 2 / 3 day exposure at ~80% RH — same test part.)
* Example photos may reference a specific grade (e.g. PAHT-CF); label yours accordingly.
No application disclaimer to display yet. Link a Product Parameters V2 record to this product in the admin.
