Bambu Lab’s X2D is poised to redefine premium multi-material 3D printing with a true dual-nozzle architecture built for speed, precision, and reduced waste. Rather than relying on tool swapping, the X2D is expected to use two fully integrated nozzles to deliver cleaner prints across the full 256 × 256 x 256 mm build area. Combined with expanded AMS readiness, camera-driven plate and filament verification, simplified sensor hardware, and a striking glass-and-light premium enclosure, the X2D is a perfect fit for hobbyists and professionals alike!
Dual-nozzle system with dedicated support material nozzle for clean, peelable supports
Multi-material and multi-color printing capabilities for enhanced creativity
300°C nozzle temperature with 65°C active chamber heating for advanced materials
Full filament path AI detection with built-in monitoring and backup systems
256 × 256 × 260 mm³ build volume for medium to large-scale projects
Dual-intake cooling system for crisp detail reproduction
The Bambu Lab X2D is the second generation of the premium X Series. Its innovative dual-nozzle system makes multi-material 3D printing accessible and effortless support removal. Featuring a main nozzle for parts and an auxiliary nozzle dedicated to supports, this printer delivers professional results with clean, peelable supports that wrap around complex geometries without leaving marks.
Key Features of the Bambu Lab X2D 3D Printer:
Revolutionary dual-nozzle support system.
Advanced multi-material capabilities.
Intelligent AI monitoring system.
Upgraded with a smart thermal control system.
Highly efficient multi-color 3D printing with less filament waste.
True Dual-Nozzle Performance
The X2D's innovative dual-nozzle design dedicates one nozzle to 3D printing your part while the auxiliary nozzle handles all support material. This separation allows you to use different materials for supports that peel away cleanly without leaving marks or requiring extensive post-processing. Perfect for complex geometries, overhangs, and internal channels.
The main nozzle 3D prints the actual part using the primary material.
Auxiliary nozzle uses dedicated support material for clean removal.
Eliminates support marks and reduces post-processing time.
Cleverly Compact Design
With a rear-mounted filament module, two filament feeders, and a hybrid direct-and-Bowden extruder setup, the X2D is engineered to balance precision and space efficiency. Its redesigned filament-cutting system further improves material handling while supporting the 3D printer’s compact footprint.
The rear filament module helps maintain a clean, space-saving design.
Two filament feeders support versatile material management.
The hybrid direct-and-Bowden setup improves control and responsiveness.
Reengineered filament-cutting system helps reduce waste.
Premium Printing Environment
The X2D combines a heated chamber, improved filtration, and intelligent monitoring features to create a more controlled and reliable 3D printing experience. From thermal stability to camera-assisted verification, it is designed to support high-quality results with less guesswork.
The active heated chamber reaches up to 65°C.
Improved filter for air quality protection.
Camera-driven plate and filament verification enhances setup confidence.
The smart thermal control system helps maintain consistent 3D print conditions.
Multi-Material Management
Experience faster multi-color 3D printing and cleaner results with the X2D's dual-nozzle system. The 3D printer handles complex multi-material projects with ease, allowing you to combine different properties and colors in a single print job while maintaining professional quality throughout.
Faster multi-color printing compared to single-nozzle systems.
Mix materials with different properties in one 3D print.
Professional-grade results with minimal material waste.
Intelligent Monitoring System
Built-in AI detection monitors the entire filament path and 3D print process, serving as your backup system for reliable 3D printing. Combined with adaptive calibration technology, the X2D maintains precision over time while the dual-intake cooling system ensures crisp detail reproduction in every layer.
Full filament path AI detection catches issues faster.
Bambu Lab High-precision Permanent Magnet Synchronous Motor
Auxiliary Extruder Gear
Hardened Steel
Auxiliary Extruder
Stepper Motor
Nozzle
Hardened Steel
Max Nozzle Temperature
300 °C
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
Heatbed
Supported Build Plate Type
Textured PEI Plate
Smooth PEI Plate
Cool Plate SuperTack
Engineering Plate
Max Heatbed Temperature
120 °C
Speed
Max Speed of Toolhead
1000 mm/s
Max Acceleration of Toolhead
20,000 mm/s²
Max Flow for Hotend (Standard Flow Hotend)
40 mm³/s (Test parameters: 250 mm round model with a single outer wall; Bambu Lab ABS; 280 °C 3D printing temperature)
Max Flow for Hotend (Optional High Flow Hotend)
65 mm³/s (Test parameters: 250 mm round model with a single outer wall; Bambu Lab ABS; 280 °C 3D printing temperature)
Chamber Temperature Control
Active Chamber
Heating Supported
Max Temperature
65 °C
Air Purification
Pre-filter Grade
G3
HEPA Filter Grade
H12
Activated Carbon Filter Type
Granulated Coconut Shell
VOC Filtration
Supported
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
Filament Supported
Main Hotend
PLA, PETG, ABS, ASA, TPU, Support for PLA, Support for PLA/PETG, Support for ABS, Support for PA/PET, PET, PA, PC, PVA; Carbon/Glass Fiber Reinforced PLA, PETG, ABS, ASA, PA6, PAHT, PPA, PET
Auxiliary Hotend
PLA (excluding PLA Aero), PETG, ABS, ASA, TPU for AMS, Support for PLA, Support for PLA/PETG, Support for ABS, Support for PA/PET, PET, PA, PC, PVA; Carbon/Glass Fiber Reinforced PLA, PETG, ABS, ASA, PA6, PAHT, PET
Auxiliary Hotend (print with caution¹)
PLA Silk, PETG-CF, ASA-CF, PA6-CF, TPU for AMS, Support for PA/PET
Sensor
Live View Camera
Built-in; 1920 x 1080
Toolhead Camera
Built-in; 1600 x 1200
Door Sensor
Supported
Filament Run Out Sensor
Supported
Filament Tangle Sensor
Supported
Filament Odometry
Supported with AMS
Power Loss Recovery
Supported
Electrical Requirements²
Voltage
High-voltage version: 200-240 VAC, 50/60 Hz
Low-voltage version: 100-120 VAC, 50/60 Hz
Max Power³
High-voltage version: 1600 W@220 V
Low-voltage version: 1100 W@110 V
Steady-State Power
High-voltage version:
PLA (25 °C): 250 W@220 V
PC (25 °C): 550 W@220 V
Low-voltage version:
PLA (25 °C): 250 W@110 V
PC (25 °C): 550 W@110 V
Environment Requirements
Working Temperature
10 °C-30 °C
Electronics
Touchscreen
5-inch 1280 x 720 Touchscreen
Storage
Built-in 8 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 ARM with dedicated NPU
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.
