ABS Filament Print Settings & Material Information

ABS print settings (Cura profile import, how it is done ...)
  ABS material summary

ABS (acrylonitrile-butadiene-styrene) was one of the first plastics to be used with 3D printers.
Even a few years later ABS is still used due to its good mechanical properties and is a popular material.
Due to its toughness and impact resistance, it is particularly used for durable parts that are subject to heavy use and wear.
Compared to PLA, ABS is also more heat resistant and only deforms at higher temperatures.
This makes it a good choice for outdoor or high temperature applications.

ABS material creates an odour during printing.
A room with good ventilation should therefore be considered.
When cooling down, ABS tends to warp, so that the ambient temperature in the printer's installation space must be controlled and kept constant.
Slight changes in temperature (small drafts) can lead to warping.

ABS advantages
  • good impact and wear resistance
  • hardly any stringing or oozing, thus a smoother finish
  • more heat resistant than PLA
  • reworkable, turning, milling etc.
  • good scratch resistance and breaking strength
  • dimensionally stable up to approx. 95°C

ABS disadvantages
  • strong warping possible
  • Heating bed and possibly adhesion enhancer necessary for better adhesion
  • closed pressure chamber advantageous
  • pungent odor during printing
  • Shrinkage by approx. 1.5 - 2.5% (Attention: Dimensional accuracy)

ABS print area (recommendations)
Print temperature:  200°C to 250°C
Print bed temperature:** 80°C to 110°C
Print speed: 40mm/s to 80mm/s
Travel speed: 70mm/s to 150mm/s

Since each 3D printer has its own parameter preferences, adjustments to the settings and fine-tuning are necessary to achieve optimal print results.
** depending on the printing bed adhesion method also slightly less (e.g. with BlueTape possibly 10 to 30°C less)
 Spool dimensions
1kg (net) 0,5kg (net)
Outer Ø: 200mm 200mm
Inne hole: 53mm 53mm
Thickness: 65mm 38mm
eSun 1kg (net) 0,5kg (net)
Outer Ø: 200mm 200mm
Inner hole: 52mm 52mm
Thickness: 70mm 42mm

General information about our filaments

Our filaments are suitable for all common 3D printers (FDM / FFF - Fused Deposition Modeling / Fused Filament Fabrication).
Nevertheless, the instructions of the printer manufacturer regarding nozzle diameter, filament material, filament diameter and coil dimensions should be observed.

Due to the hygroscopic property (ability to bind water) of some materials, we recommend all filaments indoors to store at room temperature and of course dry. Air-tight ZIP bags or containers with the desiccant SILICA are well suited for this.
The filaments should not hang on the printer for a long time, but always be airtight when not in use and stored with sufficient SILICA sealed.
It is also recommended to dry the filament (especially NYLON and PVA materials) before use (see section "Drying")

Desiccation (drying):
Due to the temperature differences on the transport route or through the storage itself, air may have sneaked into the packaging film. Often, the material may have absorbed some moisture between the manufacturing process and sealing (NYLON and PVA are extremely hygroscopic).
Therefore, we recommend drying overnight in a dehydrator (vegetable dryer) or a few hours in a convection oven (filament and coil only, without foil).

SPECIALTY with transparent colors!
Low humidity has no or hardly any effect on "colored" filaments, only with transparent filaments, some moisture can already lead to cloudiness.

A table with common drying times and temperatures per material is attached. A lump-sum duration for the drying is not to call. Because it depends on how much moisture the filament has already pulled.
A test pressure before drying should serve as the starting point.
The drying time should be tested with about 100g of filament, which has previously separated from the coil. So we say 3x 100g filament in the oven, the first takes after 30 min, the second after 60 min and the third after 120 min out. Afterwards you make another test print with each part. The experiences made can then be transferred to the entire coil. Or if you are not in a hurry, the filament roll in a dehydrator (vegetable dryer) for a few days should also lead to the desired success.


Drying times (recommendations):

PLA at 40°C to 50°C approx. 4h* with circulating air
ABS at 50°C to 80°C approx. 4h* with circulating air
PETG at 50°C to 80°C approx. 4h* with circulating air
NYLON at 60°C to 80°C approx. 8h* with circulating air
PVA at 60°C to 80°C approx. 8h* with circulating air

Drying time varies depending on the degree of moisture in the filament and environmental influences.
It should also be noted whether the coil will withstand the temperature you have chosen.