PAHT-CF Settings for Anycubic Kobra 2 Pro
Recommended slicer settings for printing PAHT-CF on the Anycubic Kobra 2 Pro (220 x 220 x 250 mm build volume, 500 mm/s max speed, direct drive extruder).
Não Compatível
The Anycubic Kobra 2 Pro has a max nozzle temperature of 260°C, which may be below the minimum recommended 280°C for PAHT-CF. Printing may be possible at the lower end of the temperature range but results may be suboptimal.
| Filament Nozzle Requirement | 280-310°C |
| Printer Max Nozzle | 260°C |
| Filament Bed Requirement | 100-120°C |
| Printer Max Bed | 110°C |
O que fazer em vez disso
- Your printer's hotend maxes out at 260°C, but PAHT-CF needs at least 280°C. No amount of tuning can overcome this hardware limitation.
- Try a compatible filament for your Anycubic Kobra 2 Pro — PLA, PETG, and ABS are good options.
- If you need PAHT-CF specifically, you'll need a printer with a hotend capable of 280°C+ nozzle and 100°C+ heated bed.
PAHT-CF Requirements
PAHT-CF Properties
| Nozzle Range | 280-310°C |
| Bed Range | 100-120°C |
| Speed Range | 25-45 mm/s |
| Difficulty | advanced |
| Enclosure | Required |
| Drying | 90°C / 12h |
Anycubic Kobra 2 Pro Specs
| Build Volume | 220 x 220 x 250 mm |
| Max Speed | 500 mm/s |
| Max Nozzle Temp | 260°C |
| Max Bed Temp | 110°C |
| Extruder | Direct Drive |
PAHT-CF em Primeiro Lugar
Forças
- Heat resistance up to 180°C
- Exceptional stiffness-to-weight ratio
- Best carbon fiber nylon for high-temp applications
- Good chemical resistance
Fraquezas
- Requires high-temp all-metal hotend (300°C+)
- Hardened nozzle mandatory
- Must print from heated dry box
- Very expensive (~$60-100/kg)
Quer configurações de IA personalizadas?
Descreva sua configuração exata e o que está imprimindo. O especialista em IA do 3DSearch gera configurações personalizadas do slicer para seu Anycubic Kobra 2 Pro com PAHT-CF em segundos.
Experimente 3DSearch →Fontes: Based on manufacturer specifications and community recommendations, community testing data, manufacturer recommended ranges. Valores calculados a partir de especificações de filamento e limites de hardware da impressora.