Película agrícola certificado EN 17033

3D PRINTING

BIOBASED AND BIODEGRADABLE BIOPOLYMERS FOR 3D FILAMENT EXTRUSION

TheINZEA® range of biopolymers for filament extrusion for 3D printinghas a series of advantages that multiplies the final applications in which this technology can be used, making possible the growth of the market for this type of materials.

Maximum performance with minimum impact on nature

INZEA HTS series bioplastics and INZEA F38 are the recommended materials for the extrusion of biodegradable 3D filaments. These grades are easily processed on conventional extruders.

Thanks to its low melting point, it is possible to have a good dimensional control of the filament and to process the products at a low temperature, thus minimising energy consumption both in the extrusion process and during printing.

Pieza impresa en 3D de INZEA compostable y biodegradable.
Impresión 3D realizada con biopolímeros compostables de INZEA.

Advantages of INZEA biopolymers versus PLA

  • Improved adhesion
  • Flexibility and impact resistance.
  • Higher thermal resistance (in case of HTS grades)

The above products are also suitable for micronisation and subsequent 3D printing by laser sintering (SLS).

Advantages of INZEA biopolymers versus PLA

  • Improved adhesion
  • Flexibility and impact resistance.
  • Higher thermal resistance (in case of HTS grades)

The above products are also suitable for micronisation and subsequent 3D printing by laser sintering (SLS).

Impresión 3D realizada con biopolímeros compostables de INZEA.

WHAT IS INZEA

The world is changing and the plastics industry has to adapt to a new situation where sustainability is a priority for governments, businesses and consumers. INZEA® is our response to our customers’ demand for more sustainable plastic materials.

INZEA is a range of biopolymers which can replace traditional plastics in different applications such as bags, mono-use items and packaging, with the advantage of being biodegradable and compostable.

INZEA product range is obtained from renewable sources and is designed to return to nature by different disposal methods like industrial & home composting, or by biodegradation in different environments.

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