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The FAAO Forced Air Annealing Ovens are professional-grade thermal processing solutions designed to bring industrial-standard finishing to your 3D printing workflow. While traditional ovens suffer from hot spots and uneven heating, the FAAO-013L oven utilises a high-precision microcontroller and forced-air circulation to deliver the uniform environment essential for the delicate process of annealing 3D printed parts.
3D printing inherently creates internal stresses and micro-voids as layers cool at different rates. Annealing, the process of heating a part to a specific temperature and cooling it slowly, realigns the polymer chains to provide:
Enhanced Mechanical Strength: Significantly increases tensile strength and impact resistance.
Superior Thermal Stability: Raises the Heat Deflection Temperature (HDT), allowing parts to withstand higher operating environments without deforming.
Dimensional Accuracy: Relieves internal stresses that lead to long-term warping or cracking, ensuring your parts stay true to their original CAD design.
Uniform Heat Distribution: The forced-air convection system with gentle downward flow along the chamber wall provides less disruption to parts and ensures consistent temperatures throughout the chamber, preventing the "localised melting" often seen in standard toaster ovens.
Advanced PID Control: A built-in microcontroller provides precise temperature accuracy up to 200°C or 250°C, critical for materials like PLA (annealing at ~50-60°C), ABS (annealing at ~80-90°C) and High Temp Resins (annealing at ~90-160°C).
Safety First: Features an adjustable temperature alarm and built-in overheat protection that automatically cuts power if temperatures exceed safe limits or a sensor fails.
Observation Window: The toughened double-glazed window allows you to monitor your parts for any signs of softening or deformation without opening the door and losing heat.
|
Feature |
FAAO-013L |
FAAO-023L |
FAAO-040L |
|
Chamber Volume |
13 Litres |
23 Litres |
40 Litres |
|
Temp Range |
Ambient to 200°C |
Ambient to 200°C |
Ambient to 250°C |
|
Internal Dimensions (WxDxH) |
250 x 230 x 250 mm |
300 x 280 x 280 mm |
340 x 300 x 360 mm |
|
External Dimensions (WxDxH) |
410 x 440 x 450 mm |
610 x 510 x 460 mm |
510 x 530 x 700 mm |
|
Power Requirements |
220-240V / 50-60Hz single phase, 300 Watts |
220-240V / 50-60Hz single phase, 600 Watts |
220-240V / 50-60Hz single phase, 1200 Watts |
|
Internal Material |
Corrosion-resistant Stainless Steel |
Corrosion-resistant Stainless Steel |
Corrosion-resistant Stainless Steel |
|
Shelving |
2 Racks included (Capacity for 3 - height between each rack is 50mm) |
2 Racks included (Capacity for 3 - height between each rack is 50mm) |
2 Racks included (Capacity for 3 - height between each rack is 50mm) |
|
Controller Type |
Digital PID Microcontroller with Calibration Add 28 Segment Ramp LCD Controller for additional control and ramp programming |
Digital PID Microcontroller with Calibration Add 28 Segment Ramp LCD Controller for additional control and ramp programming |
Digital PID Microcontroller with Calibration Add 28 Segment Ramp LCD Controller for additional control and ramp programming |
|
Safety Certifications |
CE Compliant |
CE Compliant |
CE Compliant |
Digital Forced Air Anneal Oven
2x Stainless Steel Wire Shelves
Power Cord
User Manual
One-Year Manufacturer Warranty
Ready to take your 3D printing to the next level? Whether you are working with high-performance engineering filaments or looking to strengthen consumer-grade PLA, professional annealing ovens provide the controlled thermal environment needed for expert results.
Annealing is a critical post-processing step for functional 3D prints, but it requires precision. If the temperature is too low, the internal stresses remain; if it is too high, the part may warp or melt.
The following table provides general guidelines for common materials when using a forced-air convection oven. Please note this is just a guideline and each material brand differs so find the right temperature and time which works for your own filament and printed geometry.
|
Material |
Annealing Temp (°C) |
Annealing Time (Hours) |
Cooling Method |
Key Benefit |
|
PLA |
50°C - 60°C |
6 - 12 Hours |
Natural cool in oven |
Stress relief, minor strength boost |
|
PLA-CF/GF |
55°C - 60°C |
6 - 12 Hours |
Natural cool in oven |
Stress relief, minor strength boost |
|
PETG |
60°C - 70°C |
4 - 8 Hours |
Natural cool in oven |
Improved layer adhesion & rigidity |
|
ABS / ASA |
80°C – 90°C |
6 - 12 Hours |
Natural cool in oven |
Reduced warping & internal stress |
|
Nylon (PA) |
80°C - 100°C |
6 - 12 Hours |
Gradual ramp down |
Maximum crystallization, toughness and heat resistance |
|
Nylon CF/GF (PA-CF/GF and PAHT-CF/GF) |
90 - 130°C |
6 - 12 Hours |
Gradual ramp down |
Maximum crystallization, toughness and heat resistance |
|
Polycarbonate (PC) |
85°C - 100°C |
6 - 12 Hours |
Gradual ramp down |
Maximum crystallization, toughness and heat resistance |
|
PPA-CF/GF |
100°C - 160°C |
6 - 12 Hours |
Gradual ramp down |
Maximum crystallization, toughness and heat resistance |
|
PPS |
100°C - 220°C |
6 - 12 Hours |
Gradual ramp down |
Maximum crystallization, toughness and heat resistance |
|
PPS-CF |
100°C - 240°C |
6 - 12 Hours |
Gradual ramp down |
Maximum crystallization, toughness and heat resistance |
|
PEEK / PEI (Ultem) |
Ramp 10°C per hour, hold 150°C – 200°C |
4 - 8 Hours |
Controlled ramp down - 5°C per hour to 65°C then turn oven off and cool naturally |
Maximum crystallization, toughness and heat resistance |
|
Formlabs High Temp Resin |
160 °C |
3 hours |
Natural cool in oven |
Increases HDT |
|
Formlabs Rigid 10K Resin |
90 °C |
2 hours |
Natural cool in oven |
Increase HDT |
The "Slow Cool" Rule: Never remove parts immediately after the annealing time. Turn the oven off and let the part cool to room temperature inside the chamber. Alternatively, for more technical materials ramp the cool down using the optional ramp controller. Rapid cooling can re-introduce the very stresses you are trying to remove.
Support Material: For complex geometries or materials with low Glass Transition temperatures (like PLA), keep the supports on during annealing. This helps the part maintain its dimensional integrity while the polymer chains are mobile.
Ramping (Optional but Recommended): For critical parts, use a "stepped" approach. Heat the oven to 20°C below your target for 30 minutes before moving to the final annealing temperature. This prevents "thermal shock" to the outer layers of the print. For ramping control you need to add 28 Segment Ramp LCD Controller
Infill Density: Parts with 100% infill are far less likely to shrink or deform during annealing compared to low-infill parts (e.g., 15-20%), as the internal structure provides more mechanical support.
Note on Shrinkage: Most polymers will shrink slightly (typically 0.5% to 2%) during annealing as the material densifies. If you are printing tight-tolerance mechanical parts, you may need to scale your model by a small percentage in your slicer to compensate.
Ships within 48 hours · Estimated delivery Jul 15 - Jul 20
US$40
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