Kobra 4 Combo vs Centauri Carbon 2 Combo 3D Printer
Technical comparison · Fused filament fabrication (FFF/FDM)
Kobra 4 Combo and Centauri Carbon 2 Combo 3D Printer are two fused filament fabrication (fff/fdm) in a similar class. Choose Kobra 4 Combo if max print speed matters more; choose Centauri Carbon 2 Combo 3D Printer if closed chamber matters more. On the category's overall technical index, Centauri Carbon 2 Combo 3D Printer scores 57/100 against 43/100 for Kobra 4 Combo.
| Parameter |
Kobra 4 Combo
Anycubic
F1 · Entry
|
Centauri Carbon 2 Combo 3D Printer
Elegoo
F2 · Intermediate
|
|---|---|---|
| Identity | ||
| Launch year | 2026 | 2026 |
| Use tier | F1 — Entry | F2 — Intermediate |
| Price | ||
| Price (€) | 499 € | 439 € |
| Price updated on | 06/2026 | — |
| Universal specs | ||
| Dimensions (W×D×H) (cm) | 45.54 × 44.53 × 46.13 cm | 50 × 48 × 74.3 cm |
| Weight (kg) | 13.6 kg | 19.35 kg |
| Work area (mm) | 260 × 260 mm | 256 × 256 mm |
| Z-axis height (mm) | 260 mm | 256 mm |
| Power (W) | — | 1100 W |
| Voltage (V) | — | 240 V |
| Maximum speed | 600 mm/s | 500 mm/s |
| Declared precision | — | 0.1 mm |
| Category specs | ||
| XY print surface (mm) | 260 mm | 256 mm |
| Maximum Z height (mm) | 260 mm | 256 mm |
| Kinematics | cartesian | corexy |
| Max nozzle temperature (°C) | 300 °C | 350 °C |
| Max bed temperature (°C) | 100 °C | 110 °C |
| Max print speed (mm/s) | 600 mm/s | 500 mm/s |
| Closed chamber | False | True |
| Filament sensor | True | True |
| Auto leveling | mesh | mesh |
| Standard nozzle diameter (mm) | 0.4 mm | 0.4 mm |
| Multi-extruder | False | False |
| Native Klipper | True | — |
| Input shaper | True | True |
| Multicolor printing | true | True |
| Requires external accessory | false | False |
| Maximum colors | 4 | 4 |
| Ecosystem | ||
| Cloud dependency | No | No |
| Software notes | Equipped with Kobra OS firmware. It supports connectivity via USB, Anycubic Slicer, and the Anycubic mobile app for remote print monitoring and control. Integrates AI-based error detection. | The machine is compatible with major slicing software on the market. The manufacturer recommends using Elegoo Slicer, specifically optimized to leverage the CoreXY kinematics, multi-color printing via the CANVAS system, and vibration compensation algorithms (Input Shaping). Alternatively, popular slicers like Orca Slicer and Cura can be used, offering broad flexibility to users who prefer established workflows. The integrated dual-band Wi-Fi connectivity allows direct transfer of G-code files to the 8 GB internal memory without physical cards, while the internal camera enables remote monitoring and time-lapse video recording, simplifying the management of the printing process even from a distance. |
The differences that matter
- Closed chamber: Centauri Carbon 2 Combo 3D Printer yes, Kobra 4 Combo no
- Price: Kobra 4 Combo 499 € vs Centauri Carbon 2 Combo 3D Printer 439 € — Centauri Carbon 2 Combo 3D Printer wins (+14%)
- Max print speed: Kobra 4 Combo 600 mm/s vs Centauri Carbon 2 Combo 3D Printer 500 mm/s — Kobra 4 Combo wins (+20%)
- Max nozzle temperature: Kobra 4 Combo 300 °C vs Centauri Carbon 2 Combo 3D Printer 350 °C — Centauri Carbon 2 Combo 3D Printer wins (+17%)
- Max bed temperature: Kobra 4 Combo 100 °C vs Centauri Carbon 2 Combo 3D Printer 110 °C — Centauri Carbon 2 Combo 3D Printer wins (+10%)
Which one to choose
Choose Kobra 4 Combo if…
you value max print speed. «The rated maximum speed indicates the theoretical hardware limit, not the everyday working speed. Faster machines reduce print times on simple geometries, but real-world speed depends on material, geometry, required surface finish, and slicer settings. Values above 200–300 mm/s are meaningful only on machines with CoreXY kinematics, active input shaping, and a stiffened mechanical frame.»
Choose Centauri Carbon 2 Combo 3D Printer if…
you value closed chamber, price and max nozzle temperature. «A closed chamber reduces thermal gradients around the part being built, limiting warping and cracking caused by rapid cooling in high-shrinkage materials such as ABS, ASA, and PC. It also shields the mechanism from drafts and airborne particles. A closed chamber is effectively necessary for technical materials; for PLA and PETG it is an advantage, not a requirement.»
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