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Battleship Gray- 2.85mm 3D Fuel Workday APLA Filament - 1kg

Battleship Gray- 2.85mm 3D Fuel Workday APLA Filament - 1kg

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Advanced PLA (APLA) has higher heat resistance than ABS once it has gone through a simple annealing process. All you need is an oven or toaster oven! No warping, low/no odor, no heated bed necessary! If your 3D printer can print in standard PLA your mind will be blown with how easy it is to print with APLA. Standard PLA is nice to print, Advanced PLA is amazing to print with! APLA is the first 3D filament ever made from plastic that has been engineered and designed specifically with 3D printing in mind.

Technical Info

3D-Fuel Advanced PLA filament is being produced from high heat grade PLA, developed specifically for the manufacturing of 3D printer filament.

High heat grade resin exhibits improved heat resistance and has faster crystalization rates.

When using 3D-Fuel filament made from this resin you can expect:

  • Low odor
  • Higher print detail/resolution
  • Excellent first layer adhesion
  • Improved adhesion between layers
  • Reduced warping, curling, and failed prints


Printing Information

It is essential to ensure filaments are dry prior to printing. Our filament will run best at an extrusion temperature of 190-230C. It is recommended to use high water content hair spray (as opposed to high ethyl alcohol content) or painter’s tape on the build plate to ensure the first layer of the print sticks to the plate. PEI (with a heated bed), BuildTak, and direct printing on acrylic can also produce good results.

For more stability and a higher quality print:

  • Reduce the speed of the extruder to 30-60mm/second
  • Increase infill to 30%
  • Reduce layer height to 0.10mm
  • For prints with curvatures, it is recommended to turn on rafts and supports in your settings.
  • Print in an area with good airflow and/or and active cooling fan that directs airflow directly on the print.
  • Clean the base plate after each day of printing.
  • Clean the nozzle after every use for best performance.


Annealing (Heat Treating) Info

To get the maximum strength out of your 3D printed part, we recommend a post- annealing procedure that could be done in your oven at a range of 176-266F (80- 130C) to promote increased crystallization and further improve the heat deflection temperature.

For best results:

  1. Preheat the oven or toaster oven.
  2. Place print on room temperature baking sheet.
  3. Place baking sheet into oven/toaster oven.
  4. Wait 30-60 minutes for annealing to complete
    1. You may see the print take on a milky/matte/opaque color transformation.
  5. Turn the oven off.
  6. Wait for oven to cool before removing print.

Shrinkage and/or warping may occur. The degree of shrinkage/warping depends heavily on the part geometry.


Physical Properties APLA ABS Characteristic Effects
Clarity Opaque Opaque Light Transmission of Part
Melting Point (°C) 165 105 Polymer melting temperature
Diameter Tolerances (mm) ±.05 ±.05 Variation of filament size
Ovality(mm) ±.04 ±.04 Difference between two diameters measured across the filament's profile
Density (g/cm2) 1.24 1.04 Density of filament material
Melt Flow Index (195°C) 11 2 Viscosity of filament in molten state
Tensile Strength at Yield (MPa) 55 33 The force required to deform
Tensile Elongation (%) 2.85 2.98 The amount of stretching before breaking
Tensile Modulus (MPa) 2904 1920 The rigidity or resistance to stretching
Toughness (J) 0.19 0.12 The amount of energy to break
Heat Deformation Temp (°C) 144 98 Temp at which it will begin to deform after being post annealed
Volatile Compounds Detected 5 35 Number of identified compounds released during 3D printing
Volatiles with Toxicity Concerns 0 11 Number of identified compounds with a toxic health rating according to GHS