Technical Specifications
Typical Applications
- Parts in the engine bay and oven-adjacent areas
- Turbocharger environments and exhaust systems (up to 200 °C)
- High-temperature fixtures in manufacturing processes
- Thermal shields and insulating parts
- Automotive prototypes in high-temperature testing
Compliance Evidence
⚠ Partially documented – no complete RoHS certificate available. Evidence via manufacturer documentation.
Evidence: Bambu Lab publishes RoHS information in the Material Safety Portal.
⚠ Partially documented – SVHC statement available, but no complete REACH conformity declaration on file.
Evidence: REACH data via the Bambu Material Safety Portal.
The evidence listed applies to the filament or raw material per manufacturer documentation. Regulatory clearance of the printed final product – particularly for food contact, medical devices, electrical applications or UL-relevant parts – is not automatically included and must be evaluated on a project-specific basis. Technical machine assignment is handled internally.
Material Documents
Material Profile
PAHT-CF closes the thermal gap between standard PA12-CF (~175 °C) and high-performance polymers like PEEK (~250 °C). With up to 200 °C heat deflection and ~120 MPa tensile strength, it’s the choice for prototypes and small batches in thermally extreme environments.
Thermal Classification
| Material | Max. HDT | Tensile strength | Cost |
|---|---|---|---|
| Prusament ASA | ~100 °C | ~47 MPa | Medium |
| PA12-CF | ~175 °C | ~80–110 MPa | High |
| PAHT-CF | ~200 °C | ~90–120 MPa | Very high |
| PPA-CF | ~240 °C | ~100–130 MPa | Very high |
PAHT-CF covers the gap when PA-CF isn’t thermally sufficient but the cost of PPA-CF isn’t yet justified.