The Bambu Lab H2D Pro is a complete Professional Dual-Nozzle 3D Printing Solution
What’s Included?
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AED15,845.00
Prices shown are for the United Arab Emirates only and are excluding VAT @ 5% Local Rate (Unless Otherwise Stated).
Other countries may incur additional import duties – Please Contact Us for further details and pricing for your location.
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The Bambu Lab H2D Pro is a complete Professional Dual-Nozzle 3D Printing Solution
The H2D Pro offers the option to connect to your devices through its newly added Ethernet port, ensuring robust network communication in complex environments. Ethernet connectivity can also be used in crowded wireless signal environments. Additionally, the H2D Pro provides WPA2-Enterprise Wi-Fi Authentication (EAP-PEAP/EAP-TLS/EAP-TTLS) and individual physical kill switches for Wi-Fi, meeting stringent network security requirements.
Bambu Lab provides professional support for enterprises to custom-develop efficient printer fleet management tools, meeting their business integration needs. Our expert software R&D team offers full technical assistance to help clients achieve their required customised functionalities.
Combine flexible and rigid materials in a single print to create impressive interlocking structures and innovative designs beyond traditional manufacturing. Pairing high-performance materials with standard ones further reduces costs and boosts material efficiency by using premium materials only where necessary.
Print with support is no longer a headache. With H2D’s dual-nozzle setup, one nozzle can be reserved for dedicated support material, allowing secured print and a perfect support interface.
Dual-nozzle printing reduces purge cycles in multi-colour prints. H2D’s smart algorithms optimise filament use, maximising dual-nozzle efficiency to save time and materials.
Unlock the full potential of your high-temperature engineering filaments with a 350℃ (662°F) nozzle. Experience improved layer bonding when printing demanding materials like PPA-CF, PPS, and PPS-CF at higher temperatures, leading to stronger and more reliable parts.
Equipped with a 65°C active chamber heater and adaptive air circulation, the H2D Pro intelligently manages chamber temperature for optimal printing. Active flaps control internal/external airflow based on filament type, preventing low-temp clogs, reducing high-temp warping, improving layer bonding, and fully leveraging each material’s strengths.
A new high-performance fan integrated into the toolhead front cover effectively cools the extruder and hotend heatsink. This intelligent temperature control mitigates potential clogging and filament jamming in challenging environments, enabling a 3°C increase in the recommended printer operating temperature.
With HRA 90 compared to hardened steel’s 74, the H2D Pro’s tungsten carbide nozzle provides exceptional wear resistance. This results in a 50% increase in lifespan when printing abrasive, high-performance fibre-reinforced filaments.
The H2D Pro comes standard with an ultra-high precision vision encoder plate, utilising 5µm resolution optical measurement to calibrate toolhead movement. This advanced system ensures consistent and distance-independent 50µm motion accuracy across the entire build area, laying down a strong foundation for producing highly accurate prints.
For optimal air filtration, we’ve integrated a G3 pre-filter, an H12 HEPA filter, and a premium coconut shell activated carbon filter. This enhanced system effectively minimises excessive odours and particulates, particularly beneficial when printing in less ventilated spaces.
| Printing Technology | |
| Fused Deposition Modelling | |
| Body³ | |
| Build Volume (W*D*H) | Single Nozzle Printing: 325*320*325 mm³ |
| Dual Nozzle Printing: 300*320*325 mm³ | |
| Total Volume for Two Nozzles: 350*320*325 mm³ | |
| Chassis | Aluminium and Steel |
| Outer Frame | Plastic and Glass |
| Physical Dimensions | |
| Physical Dimensions | 492*514*626 mm³ |
| Net Weight | 31 kg |
| Toolhead | |
| Hotend | All Metal |
| Extruder Gear | Hardened Steel |
| Nozzle | Tungsten Carbide |
| Max Nozzle Temperature | 350 ℃ |
| Included Nozzle Diameter | 0.4 mm |
| Supported Nozzle Diameter | 0.2 mm, 0.4 mm, 0.6 mm, 0.8 mm |
| Filament Cutter | Built-in |
| Filament Diameter | 1.75 mm |
| Extruder Motor | Bambu Lab High-precision Permanent Magnet Synchronous Motor |
| Heatbed | |
| Build Plate Material | Flexible Steel Plate |
| Included Build Plate Type | Textured PEI Plate |
| Supported Build Plate Type | Textured PEI plate, Smooth PEI Plate |
| Max Heatbed Temperature | 120 ℃ |
| Speed | |
| Max Speed of Toolhead | 1000 mm/s |
| Max Acceleration of Toolhead | 20,000 mm/s² |
| Max Flow for Hotend | 40 mm³/s |
| (Test parameters: 250 mm round model with a single outer wall; Bambu Lab ABS; 280 ℃ printing temperature) | |
| Chamber Temperature Control | |
| Active Chamber Heating | Supported |
| Max Temperature | 65 ℃ |
| Air Purification | |
| Pre-filter Grade | G3 |
| HEPA Filter Grade | H12 |
| Activated Carbon Filter Type | Granulated Coconut Shell |
| VOC Filtration | Superior |
| Particulate Matter Filtration | Supported |
| Cooling | |
| Part Cooling Fan | Closed Loop Control |
| Cooling Fan for Hotend | Closed Loop Control |
| Main Control Board Fan | Closed Loop Control |
| Chamber Exhaust Fan | Closed Loop Control |
| Chamber Heat Circulation Fan | Closed Loop Control |
| Auxiliary Part Cooling Fan | Closed Loop Control |
| Toolhead Enhanced Cooling Fan | Closed Loop Control |
| Supported Filament Type | |
| PLA, PETG, TPU, PVA, BVOH | Optimal |
| ABS, ASA, PC, PA, PET, Carbon/Glass Fibre Reinforced PLA, PETG, PA, PET, PC, ABS, ASA | Superior |
| PPA-CF/GF, PPS, PPS-CF/GF | Ideal |
| Sensor | |
| Live View Camera | Built-in; 1920*1080 |
| Nozzle Camera | Built-in; 1920*1080 |
| Toolhead Camera | Built-in; 1920*1080 |
| Door Sensor | Supported |
| Filament Run Out Sensor | Supported |
| Filament Tangle Sensor | Supported |
| Filament Odometry | Supported with AMS |
| Power Loss Recovery | Supported |
| Electrical Requirements | |
| Voltage | 100–120 VAC / 200–240 VAC, 50/60 Hz |
| Max Power1 | 2200 W@220 V / 1320 W@110 V |
| Please purchase the version corresponding to your region’s voltage. | |
| Working Temperature | |
| 10 ℃-30 ℃ | |
| Electronics | |
| Touchscreen | 5-inch 720*1280 Touchscreen |
| Storage | Built-in 32 GB EMMC and USB Port |
| Control Interface | Touchscreen, mobile App, PC App |
| Motion Controller | Dual-core Cortex-M4 and Single-core Cortex-M7 |
| Application Processor | Quad-core 1.5 GHz ARM A7 |
| Neural Processing Unit | 2 TOPS |
| Software | |
| Slicer | Bambu Studio |
| Supports third-party slicers which export standard G-code, such as Super Slicer, PrusaSlicer and Cura, but certain advanced features may not be supported. | |
| Supported Operating System | MacOS, Windows |
| Network Control | |
| Ethernet | Available |
| Wireless Network | Wi-Fi |
| Network Kill Switch | Wi-Fi and Ethernet |
| Removable Network Module | Available |
| 802.1X Network Access Control | Available |
| Wi-Fi | |
| Operating Frequency | 2412–2472 MHz, 5150–5850 MHz (FCC/CE) |
| 2400–2483.5 MHz, 5150–5850 MHz (SRRC) | |
| Wi-Fi Transmitter Power (EIRP) | 2.4 GHz: <23 dBm (FCC); <20 dBm (CE/SRRC/MIC) |
| 5 GHz Band1/2: <23 dBm (FCC/CE/SRRC/MIC) | |
| 5 GHz Band3: <30 dBm (CE); <24 dBm (FCC) | |
| 5 GHz Band4: <23 dBm (FCC/SRRC); <14 dBm (CE) | |
| Wi-Fi Protocol | IEEE 802.11 a/b/g/n |
| Ethernet | |
| Port Type | RJ45 |
| Speed | 100 Mbps Full-Duplex |
| AMS 2 Pro | |
| Dimensions | 372*280*226 mm³ |
| Net Weight | 2.5 kg |
| Housing Material | ABS/PC |
| Filament Supported | PLA, PETG, ABS, ASA, PET, PA, PC, PVA (dried), BVOH (dried), PP, POM, HIPS, Bambu PLA-CF/PAHT-CF/PETG-CF/Support for PLA/PETG, and TPU for AMS |
| Filament Not Supported | TPE, generic TPU, PVA (damp), BVOH (damp), Bambu PET-CF/TPU 95A, and other filaments that contain carbon fibre or glass fibre |
| Filament Diameter | 1.75 mm |
| Spool Dimension | Width: 50 mm–68 mm |
| Diameter: 197 mm–202 mm | |
| RFID Identification | Supported |
| Highest Temperature | 65 ℃ |
| Filament Supported2 | PLA, PETG, Support for PLA/PETG, ABS*, ASA*, PET*, PA*, PC*, PVA*, BVOH *, PP, POM*, HIPS*, Bambu PLA-CF*/ PAHT-CF*/ PETG-CF*, and TPU for AMS* |
| Active Moisture Discharge | Supported |
| Sealed Storage | Supported |
| Temperature and Humidity Detection and Maintenance | Supported. Real-time temperature and humidity can be displayed on the screen3, Bambu Studio, and Bambu Handy. |
| Input | 24 V 4 A |
| AMS HT | |
| Dimensions | 114*280*245 mm³ |
| Net Weight | 1.21 kg |
| Housing Material | PC/PA |
| Flame Retardant Grade | UL 94 V-0 |
| Screen | Supports displaying real-time temperature and humidity, and remaining drying duration. |
| Filament Supported | Feeder Unit Filament Inlet: PLA, PETG, ABS, ASA, PET, PA, PC, PVA (dried), BVOH (dried), PP, POM, HIPS, Bambu PLA-CF/PAHT-CF/PETG-CF/Support for PLA/PETG, and TPU for AMS |
| Bypass Filament Outlet: TPE, generic TPU, Bambu PET-CF/TPU 95A, and other filament that contains carbon fibre or glass fibre | |
| Filament Not Supported | PVA (damp), BVOH (damp) |
| Filament Diameter | 1.75 mm |
| Spool Dimension | Width: 50 mm–68 mm |
| Diameter: 197 mm–202 mm | |
| RFID Identification | Supported |
| Filament Odometry | Supported |
| Maximum Temperature | 85 ℃ |
| Filament Supported | PLA, PETG, Support for PLA/PETG, ABS, ASA, PET, PA, PC, PVA, BVOH, PP, POM, HIPS, Bambu PLA-CF/ PAHT-CF/ PETG-CF, and TPU for AMS |
| Active Moisture Discharge | Supported |
| Rotating Drying Mode | Supported |
| Sealed Storage | Supported |
| Top Lid Open Detection | Supported |
| Temperature, Humidity Detection and Maintenance | Supported. Real-time information can be displayed on the printer screen, AMS HT screen, Bambu Studio, and Bambu Handy. |
| Voltage | DC: 24 V |
| AC: 100 V–240 V~, 50 Hz/60 Hz | |
| Average Power | 150 W |
| 1. To ensure the heatbed quickly reaches the needed temperature, the printer will maintain maximum power for about 3 minutes. | |
| 2. Filaments marked with * require a higher drying temperature. The AMS 2 Pro cannot dry them completely. If you want better drying performance for these filaments, we recommend using the AMS HT. | |
