Best Cura Profile Settings for Anycubic Kobra Max

Cura frequently offers excellent preset profiles for the majority of 3D printers available on the market, however, these still need to be adjusted for each machine and the filament being used. Additionally, these profiles are typically only accessible once the item has been released. This article contains the ideal Cura settings for the Anycubic Kobra if you’re looking for them.

To create the ideal Anycubic Kobra Max Cura profile, the machine parameters must be specified, the print settings must be adjusted and calibrated for the particular material being used.

  • Nozzle temp: 225°C/437°F (all layers). Anything higher produced oozing. Anything lower was lower quality.
  • Retraction: 6mm
  • Retraction speed: 60 mm/s
  • Travel speed: 120 mm/s
  • Build plate temp: 90°C/194°F

Best Settings for Anycubic Kobra Max

Cura makes it simple to set up a profile for a new 3D printer. Simply pay attention to the printer’s settings and change the print settings to correspond to the material you’re using.

You can find out exactly what each parameter does and which settings work best for the various filaments in this section of the article. The calibration of the most crucial settings will next be discussed, allowing you to tailor the default values provided here to your system.

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Print Temperature

What filament you’re mainly using dictates the printing temperature. Many of the most typical problems can be caused by using the wrong printing temperatures. These include stringing, over- and under-extrusion, and other extrusion issues such as the development of spots or blobs.

There are occasions when the hotends of different 3D printer models perform very differently. For the Anycubic Kobra Max, the ideal filament temperature may be several degrees higher than for other printers, for instance.

The Anycubic Kobra performs well at a temperature of 200°C/392°F for PLA. The ideal temperature might also range from 190 to 200 °C (374 to 392 °F), depending on the filament’s manufacturer. If not, start at 200 °C/392°F and optimise in 5°C/23°F increments.

220 to 250°C (428 to 482 °F) are slightly higher temperatures needed for ABS and TPU. For both filaments, 230 °C/446°F usually work best.

Print Bed Temperature

The Anycubic Kobra’s print bed surface is excellent and offers great print bed adhesion for the majority of materials. To make use of this, you must nevertheless adjust the print bed temperature correctly. Weak print bed adhesion can result from too low of a print bed temperature, and other print faults like warping or elephant foot can result from too high of a temperature.

A heated print bed is not necessary when using PLA filament. However, if you adjust the print bed temperature to roughly 60 °C/140°F, you will obtain the greatest results. You can also use some extra support, such as adhesives, or a supplementary print, such as a Raft or Brim if you experience issues with poor print bed adhesion.

You require a tiny bit higher print bed temperatures for ABS. A decent range for the Anycubic Kobra is 90 to 100 °C (194 to 212 °F). Never forget that ABS experiences significant contractions and possible cracking during cooling. As a result, the temperature should be greater than the temperature of a typical room while also being as uniform as possible.

For TPU, you shouldn’t go any higher than that 60°C/140°F; instead, search for the ideal temperature in the range of 50 to 60 °C (122 to 140 °F).

Related: Why Is My Anycubic Kobra Not Sticking to Bed? Answered

Print Speeds

High print speed may be attained with the Anycubic Kobra’s lightweight direct drive extruder without running the danger of vibration. Even though the actual print speeds are far slower than what is technically achievable, they are primarily designed for general prototypes rather than fine details.

For the majority of materials, the Anycubic Kobra offers print speeds between 40 and 60 mm/s. These are accepted standard values, particularly for PLA and ABS.

The elasticity of the filament affects where the ideal print and retraction pace sits, therefore for TPU, you need to closely balance the print speed with the retraction settings.

Rough increments of 5 mm/s and then smaller steps of 2 mm/s are helpful for approaching the ideal printing speed.

Layer Height

The layer height in 3D printing serves as a gauge for precision, how smooth the object’s exterior becomes, and how many details are still discernible. The print will be more precise the lower the layer height. Low layer heights, however, also result in a significant increase in printing time.

Depending on the use you have planned for the object, you can adjust the layer height to a thicker setting. Naturally, you should pick a layer height with fewer layers if it is primarily aesthetic. You can boost the layer height for things that only need to function mechanically and don’t need to look nice in order to shorten print times for rough prototypes or parts.

Hence, for aesthetic objects, a value of 0.08 and 0.12 mm should be appropriate. For normal objects, a baseline value of 0.16 and 0.20 mm will work well. And for rough, mechanical prints, 0.24 and 0.28 mm is ideal.


The flow rate allows you to change how much filament is extruded each second. More material will be extruded if the values are set higher than 100%, and less filament will be extruded if the values are set lower.

The provided amount is multiplied by the 3D printer’s flow rate. This makes it possible to solve a variety of extrusion issues.

In most circumstances, the baseline value of 100% is appropriate. However, occasionally the extruder requires calibration, and a higher or lower number must be set. This article’s conclusion explains how to calibrate this value in the best way possible.


The production of threads (stringing) and, in severe circumstances, the formation of bigger lumps and zits are the most typical printing flaws. Some filaments are much more likely than others to string together. With the appropriate retraction values, you can minimize these issues either way.

Thin filament strands will grow between the start and finish of the movement if there is extra filament at the nozzle’s mouth when it passes over the print without extruding the filament. This is avoided by the filament feed, which pulls the filament up into the nozzle at a specific speed and distance.

For PLA and ABS, retraction settings of 6 mm at 40 mm/s are appropriate. Whereas for TPU, you may want to 8mm at 600mm/s.


Despite being a crucial variable in the print settings, infill is independent of the 3D printer. The stability of the object is determined by the infill’s design and density. You must pick the appropriate pattern and density depending on the intended use of the printed object after printing.

For stable objects, you may choose between cubic, octet, or gyroid. For normal objects, you can choose a grid or hexagon. Lastly, for aesthetic objects, you can choose between lines or zigzags.

The density affects how stable the final product will be in addition to the infill pattern. A solid object has a density of 100%, while an object with a density of 0% is empty. A density of 15 to 25% is ideal for the majority of things.

Related: Anycubic Kobra Screen Goes Black? Fixed

Frequently Asked Questions

Does Cura Support Anycubic Kobra Max?

The Anycubic-recommended Cura is their most frequently used slicer for the Kobra.

How Fast Can the Kobra Max Print?

The Anycubic Kobra Max can print at a maximum speed of 180 mm/s. So, the time it takes for your models to be finished is short. Easy operation is guaranteed by a 4.3-inch touchscreen with a bright, user-friendly display. The modular construction allows the 3D printer to be set up and operational in about 10 minutes.

What Firmware Does Anycubic Kobra Max Use?

A PLA and TPU profile as well as Cura 4.2.1 are included with the Anycubic Kobra Max. It is worthwhile downloading Cura version 4.2.1 merely to look at the profile settings because these profiles do not function with newer versions of Cura.

How Big Is the Anycubic Kobra Max?

The 17.7 x 15.7 x 15.7 in. (45 x 40 x 40 cm) build volume of the Anycubic Kobra Max 3D Printer is sufficient for daily and domestic use, giving you additional printing area and creativity options.

What is TPU filament?

Thermoplastic polyurethane, sometimes known as TPU, is a flexible and strong 3D printing filament that can be used by both amateurs and experts. Due to its distinct properties, TPU is elastic like rubber but strong like plastic.


You ought to have excellent baseline values for your initial test prints using the Cura settings for the Anycubic Kobra Max from this article.

The provided instructions might already be ideal for your 3D printer and the filament you are using, but we would still suggest you adjust the most crucial settings. Only a little amount of time is needed for this adjustment, which is made easier by already-existing calibration objects. Therefore, perfecting the print outcome with minimum effort is not difficult.

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