Fiberlogy PETG filament with a diameter of 1.75 mm and a net weight of 0.85 kg in vertigo colour or black with glitter.The product can be used with 3D printers that do not have built-in protection against the possibility of using a filament from an external supplier. PET-G material can be used to create decorations, everyday use products or jewellery. The spool on which the filament is wound is in two different versions sent randomly.
Description: Filament Fiberlogy Easy PETG 1.75 mm 0.85 kg - Vertigo
Fiberlogy PETG filament in the form of a fibre with a diameter of 1.75mm andanetweight of 0.85kgin vertigo colour, i.e.black with glitter, wound on a reel with a diameter of 52 mm. The presented product can be used with3D printers, which work in FFF /FDMtechnologywithoutbuilt-in protection against the possibility of using a filament from an external supplier. Moreover, it can also be used in "open source" devices. PET-G material can be used to create decorations, products for everyday use, e.g. bottles, packaging, cases or even jewellery. The described product is vacuum packed together with a moisture absorber. The spool on which the filament is wound is in two different versions sent randomly.
Filament Fiberlogy Easy PET-G 1.75 mm 0.85 kg - Vertigo.
Advantages of the PETG pillar
PET-G can be used by novice users of 3D printers and by professionals
Product requires a heated table
The manufacturer recommends cooling the printout
PETG is characterised by flexibility
Highly durable, with increased scratch resistance
The surface has a high gloss
The temperature of the head and table should be determined experimentally, during the test printouts
The material is odourless
Material resistant to salts, acids and alkalis
Suggested print parameters for filament
Printing temperature
From 230°C to 250°C
Table temperature
90°C
Cooling the printout
Recommended
Due to design differences between printers, the above data should be treated as a guide and the corresponding values should be determined experimentally.
Technical specifications and physical properties of the pillar