Zortrax Z-PETG Filament - Inventure

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Z-PETG

Z-PETG filament combines glycol with standard PET material to eliminate brittleness. The result is improved durability and tensile strength. Z-PETG is an industrial-grade 3D printing material designed to work in extreme environments. It’s resistant to oils and greases. The filament doesn’t degrade over time and immune to UV light. Use it to test your prototypes in various industrial conditions. Low shrinkage allows to 3D print complex mechanical elements as well as final components. The material’s strength can be used to create working parts designed to endure stress like springs, shock absorbers, and manufacturing tools. Z-PETG is a robust solution for highly demanding professionals.

AVAILABLE COLORS

CANISTER Resistant to chemicals, Z-PETG is an excellent choice for designing containers

Applications

- industrial tools and parts

- mechanical components

- working mechanisms

- crash tests

- packaging prototypes

- containers and casings

- parts required to be resistant to salts, acids, alkalis, solvents, greases and oils

Chemical resistance

Impact resistance

End-use parts

Very low shrinkage

Z-PETG provides your 3D printed casings and containers with resistance to chemicals including salts, acids, alkalis, solvents, greases, and oils.

Utilize properties of Z-PETG filament to 3D print exceptionally durable workshop tools and mechanical parts.

Zortrax blend of Polyethylene Terephthalate Glycol is perfect for manufacturing end-use industrial parts due to its physical and chemical properties.

Z-PETG provides shrinkage-free 3D printing of large objects, as well as small intricate mechanisms

Dedicated for

Container

Weight

Diameter

Zortrax M200 / M200 Plus

spool

800 g. ±5%

1.75 mm

Zortrax M300 / M300 Plus

spool

2000 g. ±5%

1.75 mm

Zortrax Inventure

cartridge

350 g. ±5%

1.75 mm

Key Properties

Metric

Imperial

Test Method

Izod Impact, Notched

11.40 kJ/m2

5.42 ft-lb/in2

ISO 180:2004

Elongation at max Tensile Stress

6.93%

6.93%

ISO 527:1998

Glass Transition Temperature

104.1oC/m2

219oF

ISO 11357-3:2014

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