Description: Filament Fiberlogy FiberSilk 1.75 mm 0.85 kg - Gold
FilamentFiberSilk by Fiberlogygold. The products included in the FiberSilk line allow you to print models with a uniquemetallic lookand high durability. The material is used in the production of decorative and functional elements. The0.85 kgprinting material iswoundon a spool and vacuum packed.
In our offer of filaments you will also find other materials and colors.
Fiberlogy FiberSilk 1.75 mm 0.85 kg - Gold.
Features of FiberSilk
- The impression of a metallic finish on the printout
- Effect of colour depth
- High level of adhesion and almost invisible incremental layers
- High impact strength and durability
- High ease of printing
Printing instructions
- The table does not need to be heated if we use pads or other adhesion promoters.
- The use of FiberSilk does not require a closed printer chamber.
- For best printing results, the manufacturer recommends reducing the printing speed and increasing the airflow:
- Blow-up settings: from 80% to 100%
- Print speed from 35 mm/sec to 60 mm/sec
- Retraction: from 2 mm to 3 mm
- Rafting is not required
Suggested print parameters for filament
Print temperature: | from 210°C to 230°C |
Table temperature: | from 50°Cto 70°C |
Cooling of the printout (airing): | from 80% to 100% |
Due to design differences between printers, the above data should be treated as a guide and the corresponding values should be determined experimentally. |
Specification of the FiberSilk
Parameter | Scope |
---|---|
Diameter of the filament: | 1.75 mm |
The dimensional tolerance of the philanthropy: | +/- 0.02 mm |
The color: | Gold |
Print temperature: | from 210°C to 230°C |
Table temperature: | from 50°C to 70°C |
Reel - material: | FiberSilk |
Reel diameter: | 200 mm |
Reel width: | 80 mm |
Mounting hole diameter: | 52 mm |
Moisture absorber: | Yes |
Vacuum packing: | Yes |
Roughness: | +/- 0.01 mm |
Package dimensions: | 205 x 205 x 90 mm |
Net weight: | 0,85 kg |
Charts of FiberSilk properties.
During loading and printing, the natural phenomenon of "swelling" of the material may be visible. It results from the surface tension of the polymers. |
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