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  • PolyTerra

    Polymaker

    New product

    81 Items

    16,52 €tax excl.
    19,99 €tax incl.

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    Environmentally friendly PLA filament with matte finish.

    PolyTerra PLA is an environmentally friendly 3D printing filament developed by the renowned FDM 3D printing materials manufacturer Polymaker. Polymaker has a wide range of filaments, including conventional materials as well as technical materials for professional users.

    PolyTerra PLA is a bioplastic developed from scratch by combining PLA with organic minerals, thus significantly reducing the plastic content of the filament, producing a more environmentally friendly FDM 3D printing material.

    Video 1: PolyTerra animation. Source: Polymaker.

    In addition, to offset the carbon emissions generated in the manufacture and transport of each spool, Polymaker, in collaboration with OneTreePlanted.org, plants a tree for each spool sold. This way, when the tree reaches maturity, it will be able to absorb 22 Kg of carbon dioxide per year, offsetting the 4 Kg needed to manufacture one PolyTerra PLA spool.

    PolyTerra filament spool

    Image 1: PolyTerra filament spool. Source: Polymaker.

    PLA is a biodegradable polymer obtained from natural resources such as starch extracted from corn, sugar beet or wheat. This material is one of the most widely used in 3D printing because it does not give off harmful gases and is easy to print.

    Thanks to its PLA content, PolyTerra PLA filament can be printed in the same configuration as PLA, does not require a heated bed and warping is almost non-existent. The low technical requirements of this material make it possible to use it in almost any FDM 3D printer on the market.

    In addition to the qualities it shares with standard PLAs, PolyTerra PLA allows the 3D printing of parts with overhangs and bridges with a quality far superior to other PLAs. Furthermore, the surface finish of 3D printed parts is excellent and completely matt. This finish allows layer lines to be hidden, even when printing with large layer heights.

    Matt surface of parts printed with PolyTerra.

    Image 2. Matt surface of parts printed with PolyTerra. Source: Polymaker.

    PolyTerra's mechanical properties are superior to those of standard PLA, allowing for a wide range of possible applications in different sectors. PolyTerra PLA is stronger than standard PLA, and has a similar stiffness to PolyMax PLA.

    The qualities of this material do not end there, as PolyTerra PLA allows for easy post-processing. Supports printed with PolyTerra PLA can be easily removed without the use of tools. This allows the user to manufacture complex parts, achieving excellent finishes.

    Video 2: Simple removal of brackets without tools. Source: Polymaker.

    In addition, the surface of the printed parts can be sanded without any problem, without fear of creating unwanted residues on the surface. And, thanks to its porous surface, 3D printed parts made of this material can be painted, and a wide range of paints can be used.

    All these properties make PolyTerra PLA an ideal material for the manufacture of figures or accessories.

    PolyTerra PLA is available in a wide range of colours, among which several pastel colours have been introduced, all of them with an excellent surface finish.

    Pieces printed with PolyTerra PLA pastel colours.

    Image 3: Pieces printed with PolyTerra PLA pastel colours. Source: Polymaker.

    Polymaker has also taken into account the packaging of the filaments to reduce the environmental impact of the product. PolyTerra PLA filament is wound on a recycled cardboard spool, with labels and outer packaging also made of recycled material. In addition, all unnecessary paper has been removed from the packaging to reduce the waste produced in the manufacture of the material.

    Packaging of PolyTerra filaments.

    Image 4: Packaging of PolyTerra filaments. Source: Polymaker.
    Impact strength (KJ/m2) 6
    Elongation at break (%) 35
    Tensile strength (MPa) 21
    Tensile modulus (MPa) 1882
    Softening temperature (ºC) 63
    Biodegradable Biodegradable

    3D printing with PolyTerra PLA filament is very simple. As when using a standard PLA, it is not necessary to have a heated bed in the 3D printer, although if you do have one, it is recommended that it is at a temperature of approximately 50 - 60 ºC. This prevents any signs of warping.

    PolyTerra PLA can be printed at a wide range of temperatures, ranging from 190 ºC to 230 ºC.

    General information
    Manufacturer Polymaker (Europe)
    Material PolyTerra PLA
    Format Spool of 1 kg
    Density 1.31 g/cm3
    Diameter of filament 1.75 or 2.85 mm
    Diameter tolerance ±0,05 mm
    Filament length ±251 m (Ø 1.75 mm)
    ±94 m (Ø 2.85 mm)
    Color Black - Charcoal Black
    White - Cotton White
    Yellow - Savannah Yellow
    Blue - Saphire Blue
    Red - Lava Red
    Grey - Fossil Grey
    Orange - Sunrise Orange
    Verde - Forrest Green
    Purple - Lavender
    Light Yellow - Banana
    Aquamarine - Artic Teal
    Pink - Candy
    Mint - Menta
    Peach - Peach
    RAL/Pantone  -
    Print settings
    Printing temperature 190-230ºC
    Print bed temperature 25-60ºC
    Chamber temperature Not necessary
    Cooling fan Recommended
    Recommended printing speed 30-70 mm/s
    Raft separation 0.2 mm
    Retraction 1 mm
    Retraction speed 20 mm/s
    Maximum cantilever manufacturing angle 60º
    Recommended support material PolySupport 
    Mechanical properties
    Izod impact strength -
    Charpy impact strength (ASTM D256) (X -Y) 5.7 ± 0.4 kJ/m
    Elongation at break (ASTM D638) (X - Y) 34.5 ± 8.1 %
    (Z) 2.51 ± 0.83 %
    Tensile strength (ASTM D638) (X - Y) 20.9 ± 2.0 MPa
    (Z) 18.0 ± 0.3 MPa
    Tensile Modulus (ASTM D638) (X - Y) 1882 ± 141 MPa
    (Z) 1869.7± 38 MPa
    Flexural strength (ASTMD790) -
    Flexural modulus (ASTMD790) -
    Surface hardness -
    Thermal properties 
    Softening temperature (ASTM D1525) 62.7ºC
    Melting temperature 162.6ºC
    Specific properties
    Transparency  Opaque
    Additional Information
    HS Code 3916.9
    Diameter coil (outer) 200 mm
    Diameter coil (inner hole) 53 mm
    Coil Width 46 mm


    * The typical values detailed in this table should be considered as a reference. Actual values may vary depending on the 3D printer model used, part design and printing conditions. We recommend confirming the results and final properties with own tests. For more information you should consult the technical data sheet of the product.

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