Fill in your details below and click 'Submit'
Wood with no mess : All existing wood mimic 3D printing filaments are based on wood-polymer composites, i.e. blends of polymer and chopped wood powder. We used a completely different approach when designing PolyWood™. Instead of using wood to mimic wood, we developed a unique foaming technology to deliver a material that mimics wood structurally. PolyWood™ is composed entirely of polymers. The Results? Excellent print quality without the risk of nozzle jams.
Light Weight: PolyWood™ is the first and so far the only 3D printable foam material. The density of PolyWood™ is on average 0.8 g/cm³ which is 35- 40% lighter than regular PLA, so only PolyWood™ can achieve that light weight nature of Natural Wood. This leads to many interesting properties and potential applications such as lightweight structures, membrane, damping devices, and with its post processing potential even watertight models.
Endless Possibilities: Since PolyWood™ contains no actual wood, we can create any colour aesthetic we want. As it also contains a foamed structure, parts printed in PolyWood™ can achieve amazing surface finish that minimises the visual layering due to the nature of FFF/FDM technology. This has not been obtainable with any other printing material on the market to date. (Currently under development; Stay tuned for more updates.)
Glass Transition Temp
~ 60 °C (140 °F)
Filament Melting Point
150 – 160 °C (302 – 320 °F)
~ 0.8 g/cm3
1.75 mm or 3 mm
± 0.12 mm
(Typical~ 0.1 mm )
General Printing Settings
210 – 240 °C
Recommended 3D printing temperature:
220 – 235 °C (Diameter of 1.75 mm)
220 – 235 °C (Diameter of 3 mm)
Recommended 3D print speed:
30 – 60 mm/s
Recommended Heated bed:
Heated Bed Not Required
All our products work well with common build plate surfaces such as the blue tape, Kapton tape, glass, etc. However for the best user experience, we recommend that you use our materials with BuildTak™, a build plate surface designed specifically for desktop FDM/FFF printers. You can purchase this material here.