PolyMax™ PETG

PolyMax™ is a family of advanced 3D printing filaments produced with Polymaker’s Nano-reinforcement technology, to deliver exceptional mechanical properties and printing quality. PolyMax™ PETG offers better mechanical properties than any other regular PETG making it a good candidate for a wide range of applications.

PolyMax™ PETG offers better mechanical properties than any other regular PETG making it a good candidate for a wide range of applications.

Available Colors:

Black, White

Diameter Size:

1.75 mm, 2.85 mm

Net Weight:

750 g

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Print Settings

Nozzle Temperature:

230˚C – 240˚C

Printing Speed:

30mm/s – 50mm/s

Bed Temperature

70˚C – 80˚C

Bed Surface:

BuildTak®, PEI sheet

Cooling Fan:

LOW for better surface quality OFF for better strength

Mechanical Properties

Young's Modulus:

1523 ± 50 (MPa)

Tensile Strength:

31.7 ± 0.1 (MPa)

Elongation at Break:

Shore Hardness:

Bending Strength:

58.3 ± 4 (MPa)

Charpy Impact:

9.7 ± 2.6 (kJ/m2)

Thermal Propertises

Glass Transition Temperature:

79 (°C)

Vicat Softening Temperature:

82 (˚C)

Melting Temperature:

Notes

Drying Settings:

65˚C for 6h

Recommended Support Materials

30mm/s – 50mm/s

Other:

70˚C – 80˚C

PolyMax™ PETG features Polymaker's Nano-reinforcement technology: Nano-reinforcement technology is applied to produce filaments with excellent mechanical properties and printing quality. It dramatically improves the toughness of the material by increasing its impact resistance.

Print Settings

Compatible Material:

Maximum Part Size (Diameter*Height):

Polishing Liquid:

Polishing Time:

Operating Temperature

Storage Temperature:

Power Supply (INPUT):

Power Supply (OUTPUT):

Polysher™ INPUT:

Desiccant Type:

Humidity Range:

Resolution

Response

Temperature Range:

Battery specifications

Operation Manual:

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PolyMax™ PETG features Polymaker's Nano-reinforcement technology: Nano-reinforcement technology is applied to produce filaments with excellent mechanical properties and printing quality. It dramatically improves the toughness of the material by increasing its impact resistance.