Bambu Lab H2D Dual Head 3D Printer Base Bundle with 4 Spool AMS 2 System
$2,299.00$2,799.99
$2,299.00
Bambu Lab H2D, rethink personal manufacturing. The Bambu Lab H2D 3D Printer offers a dual nozzle printing system along with the all new AMS 2 PRO four filament housing with built in filament drying. The H2D supports multi-material and multi-filament spools with printing up to 350°C, perfect for high temperature filaments such as carbon fiber. The Bambu Lab H2D offers a print volume of 350 x 320 x 325mm and optional 10W & 40W laser cutting models.
- Dual-nozzle Multi-material 3D Printing
- Optional 10W/40W Laser and Cutting Module
- 350 x 320 x 325 mm³ (13.78" x 12.59" x 12.79") Print Volume
- 5μm Resolution Optical Motion Calibration
- Closed-loop Servo Extruder
- 350°C (662°F) Nozzle & 65°C (149°F) Active Chamber Heating
- Voltage Range: 100-120 V
Bambu H2D non Laser with AMS 2 PRO Bundle Includes:
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Bambu Lab H2D Dual-Head 3D Printer
- AMS 2 PRO 4 Spool System (Optional Expansion up to 16 Spools)
- Live Feed Monitoring Camera
- 3 High Temp .4mm Tips
- Spool Holder
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Dual Sided Textured Flexible Build Plate
- Filament Material Swatch Samples
- Nozzle Wiping Pad x2
- Spare Filament Cutter x2
- Unclogging Pin Tool
- Bambu Scraper
- Glue Stick For Build Plate
- Spare Parts Kit
- Power Cord
- 6 Pin Bus Cable
- 4 Pin Bus Cable
- Wifi & LAN Connections
- Bambu Studio & Bambu App
- 1-Year Manufacturer Warranty
- Lifetime U.S. Based Support
- FEATURES
- SPECIFICATIONS
- SOFTWARE
- SUPPORT
- Dual Nozzle System to lessen waste and allow for multi material printing.
- SINGLE Extrusion - 325mm × 320mm × 325mm
- DUAL Extrusion - 300mm × 320 × 325mm
- Total Volume for Two Nozzles - 350mm × 320mm × 325mm
- Automatic Material System Compatible (Bambu AMS 2 Pro) with Multi Color & Multi Material Capability
- Up to 25 multi-color printing (4 AMS 2 Pro, 8 AMS HT, and external)
- HIgh Precision Optical Motion Calibration with 5 μm Lidar Resolution *up to 50 μm with optional Vision Encoder (sold separately)
- High speed Bambu Lab High precision Permanent Magnet Synchronous Motor with 20000 mm/s² Acceleration on a Welded Steel XY Chassis
- 600 mm/s lightning fast print speed
- Hot End Flow 40mm3/s
- Closed-loop Servo Extruder
- Dual Automated Bed Leveling
- AI Failure Detection
- "Spaghetti Detection"
- Vibration and Extrusion Compensation
- Maximum Hot End Temperature of 350°C
- Max Build Plate Temperature of 120°C (at 110V)
- Active Heated Chamber up to 65°C (149°F)
- Wifi compatible
- Supported Filament
- PLA, PETG, TPU, ABS, ASA, PET -- Yes
- PA, PC -- Ideal
- Carbon/Glass Fiber Reinforced Polymer -- Ideal
- Technology: Fused Deposition Modeling (FDM)
- Motion System: Bambu Lab High precision Permanent Magnet Synchronous Motor
- Fully Assembled
- Shell: Aluminum, Steel, Plastic and Glass
- Physical Dimensions: 492*514*626 mm³
- Net Weight: 31 kg
- Chamber Monitoring Camera: 1920*1080 Included
- 5-inch 720*1280 Touchscreen
- Hot End: All-Metal
- Filament Diameter: 1.75mm
- Extrusion: Dual
- Nozzle: Hardened Steel (included)
- Nozzle diameter: 0.4mm (included), 0.2mm,0.6mm and 0.8mm (optional purchases)
- Air Purification:
- Pre-filter grade: G3
- HEPA filter grade: H12
- Activated Carbon Filter type: Coconut Shell Granulated
Bambu Studio Free Instant Software Download Windows & Mac
$0.00
The new Bambu H2D Dual Nozzle 3D printer sets a new standard in high-efficiency 3D printing with its advanced dual extrusion system, allowing for faster, more precise prints with minimal material waste. Designed for both speed and accuracy, the H2D features a larger build volume and optimized print paths to significantly reduce production time. Intelligent material handling and support for multi-material printing help save money while ensuring superior print quality. Whether for prototyping or production, the H2D delivers powerful performance without compromise.
Discover new creative potential with H2D’s innovative dual-nozzle switching system, designed for lightweight, precise, and reliable multi-material 3D printing. This advanced setup allows seamless transitions between materials, enabling the combination of flexible and rigid components within a single print. Creators can pair high-performance materials with more affordable options, optimizing both cost and function. The result is a more efficient, imaginative approach to printing complex, interlocking designs that transcend traditional crafting limitations.
Printing with support material is now easier and more efficient. Thanks to H2D’s dual-nozzle setup, one nozzle can be dedicated exclusively to support material, ensuring secure prints and a flawless support interface. This setup minimizes waste, purging, and the need for constant reloading. The result is smooth, hassle-free printing with perfect supports every time.4o
The H2D printer delivers fast and efficient multi-color printing thanks to its dual-nozzle system, which reduces the need for frequent purge cycles. Its intelligent algorithms are designed to optimize filament usage, enhancing efficiency while minimizing waste. As a result, print times are significantly reduced—such as the featured car model, which took just 17 hours and 16 minutes on the H2D compared to 26 hours and 29 minutes on the X1-Carbon. This performance highlights the H2D’s ability to save both time and materials during complex multi-color prints.
With a motion system that's ten times more accurate, the H2D minimizes the need for constant adjustments, ensuring precise fits and seamless integration of printed components. Its expanded build volume and increased speed mean you can produce larger, more complex designs in less time. The H2D also supports high-performance materials, unlocking new creative possibilities and applications. Whether you're prototyping or producing end-use parts, this machine elevates both efficiency and output quality.
Live Spatial Alignment on the H2D uses a BirdsEye camera and advanced computer vision algorithms to achieve top-view alignment accuracy of up to 0.3mm. This high level of precision ensures that the tool path is positioned exactly where it needs to be on the material. As a result, users experience a truly accurate “what-you-see-is-what-you-get” workflow. The system simplifies setup and boosts confidence in every cut or engraving.
The Vision Encoder is a cutting-edge component designed to deliver exceptional motion precision with 50µm ultra-fine accuracy. By pairing an ultra-accurate vision encoder plate with high-resolution 5µm optical measurements, it continuously tracks and corrects toolhead motion in real time. This system allows the H2D to maintain consistent, distance-independent motion accuracy across the entire workspace—achieving precision that’s ten times greater than its predecessor. *Vision Encoder sold separately.
The H2D features Full Auto Calibration, where a single tap triggers automated laser focus verification and material measurement, removing the need for manual adjustments. Additionally, its "CodeSync" technology scans the QR code on your material to instantly load the ideal preset for optimal results. This streamlined process ensures ease of use and precise performance with every project.
The H2D is engineered for high-performance 3D printing with its powerful 350°C hotend and actively heated chamber reaching 65°C. This precise closed-loop temperature control system maintains optimal thermal conditions, significantly reducing warping and deformation during prints. As a result, it enhances layer adhesion and unlocks the full potential of advanced materials like PEEK, PEI, and carbon fiber composites. Whether for functional prototypes or end-use parts, the H2D ensures consistent, high-quality results.
The H2D features a hardened steel extruder and nozzle designed for reliable, long-term use with fiber-reinforced materials. This setup offers exceptional durability and wear resistance, making it ideal for high-performance applications. Its full-metal frame and integrated die-cast aluminum alloy chassis provide a rigid, stable foundation that supports high-speed, large-format printing while maintaining accuracy. The design minimizes the effects of micro-twisting, ensuring consistent print quality. Additionally, the quick-swap nozzle system allows for tool-free replacement using a simple lock clip, making hotend changes fast and effortless. This combination of strength, precision, and convenience makes the H2D a powerful solution for demanding 3D printing tasks.
The H2D delivers the best of both worlds with seamless cloud connectivity and complete off-the-grid isolation—whichever you choose. Users can remotely control the printer, transfer files, and update firmware via any device through the cloud. For security-sensitive environments, the H2D operates fully offline, ensuring complete physical isolation and peace of mind. Developer Mode further extends flexibility by enabling MQTT port access for custom integrations with third-party components and software.
Emergency Stop & Loud Buzzer - The H2D Laser Edition includes a clearly accessible emergency stop button and a loud audible buzzer. These features enable users to quickly identify and respond to safety issues by pausing machine operation instantly.
Multi-Sensor Closed-Loop Temperature Control - H2D continuously monitors all heating components with real-time sensors, adjusting temperature dynamically as needed. This closed-loop system maintains thermal stability and ensures optimal performance without overheating.
Auto Fire Extinguishing System - An optional CO₂ fire extinguisher can be activated by the integrated flame sensor for fast, automated fire response. This feature enhances user safety by minimizing damage and risk in the event of a fire.
Flame Sensor - The H2D chamber is equipped with sensitive flame detection sensors that can quickly identify signs of fire. Upon detection, the system can sound a buzzer and be configured to send push alerts for immediate response.*
Flame-Retardant Chamber - The entire chamber is constructed using flame-retardant materials to provide passive fire safety. This ensures an added layer of protection even in the event of unexpected heating incidents.
Adaptive Airflow - H2D features a smart air management system with mode-switch flaps and customizable intake/exhaust options. It supports both internal and external air circulation with filtration or heating modes to manage odors, fumes, and temperature for various tasks.
Introducing AMS, Evolved — a leap forward in multi-material 3D printing. The all-new 2nd-generation AMS systems, including the AMS 2 Pro and AMS HT, deliver faster, smarter, and more reliable filament management with cutting-edge enhancements.
Evolved, Polished Design Details: The AMS 2 Pro features a refined design with easier access, greater durability, and improved usability.
Tool-Free Filament Tubes Access: Filament tubes can now be accessed directly from the top without tools, speeding up maintenance.
RFID Sync: RFID technology automatically applies optimal drying settings for Bambu official filaments, eliminating manual setup.
Auto-Rotate Drying: Spools rotate automatically during drying to ensure consistent moisture removal across the entire filament.
Dry Filament Quickly and Intelligently: The system intelligently manages drying cycles for optimal speed and effectiveness.
Electro-Magnetic Air Vent: Automated venting enhances dehumidification and seals airtight for long-term filament preservation.
Ceramic Inlet: High-hardness ceramic inlets dramatically increase resistance to wear and tear over time.
The REAL High-Flow Hotend is engineered for consistent, high-speed performance, allowing the H2D to print reliably at 600mm/s. Purpose-built to handle demanding flow rates, it eliminates common mid-print slowdowns caused by flowrate limitations. This ensures uninterrupted printing even on large or intricate models. With the REAL High-Flow Hotend, users can push the limits of speed without sacrificing print quality.
The Pre-Flight Checklist by AI offers peace of mind before every print by ensuring optimal conditions through advanced automation. H2D's vision system performs a Chamber Integrity Scan to detect debris across the entire print surface, reducing the risk of failed prints. It then conducts a Hardware Configuration Audit, instantly identifying nozzle dimensions and build plate properties. Finally, Digital-Physical Alignment verifies that the detected hardware matches the slicer parameters, guaranteeing seamless integration between software and machine.
BAMBU 3D PRINTING FILAMENT TYPES & HOW TO CHOOSE
- PLA
- SPECIALITY PLA
- CARBON FIBER
- PETG
- ASA/ABS
- PC/TPU
- PA/PET
- SUPPORT FILAMENT
PLA filament is a popular and eco-friendly material for 3D printing, derived from renewable resources like corn starch or sugarcane. It is easy to work with, offering low warping and the ability to produce detailed, high-quality prints, making it ideal for beginners and hobbyists. Commonly used for creating prototypes, decorative items, and educational models, PLA's biodegradable nature also makes it a sustainable choice for various applications.
Specialty PLA filaments, such as wood-textured, marble-textured, sparkle, metallic, silk, and silk dual-tone options, open up a world of creative possibilities in 3D printing. These filaments provide unique finishes and visual effects, from natural wood grain or stone-like patterns to shimmering metallic or glossy, vibrant silk appearances. Ideal for artistic projects, decorative pieces, and premium prototypes, specialty PLA filaments combine ease of use with stunning aesthetics, allowing makers to elevate their creations.
Carbon fiber reinforced filament is a high-performance material for 3D printing, combining the strength and stiffness of carbon fibers with the versatility of base thermoplastics like PLA, PETG, or ASA. This filament produces lightweight, durable, and rigid parts, making it ideal for aerospace, automotive, and prototyping applications. Its benefits include reduced warping, improved dimensional stability, and enhanced mechanical properties, perfect for functional and load-bearing components.
PETG filament is a versatile material for 3D printing, combining the strength of ABS with the ease of use of PLA. It offers excellent durability, impact resistance, and chemical resistance, making it ideal for functional prototypes, mechanical parts, and outdoor applications. Additionally, PETG's low shrinkage and good layer adhesion ensure smooth, reliable prints suitable for both beginners and professionals.
ASA and ABS are popular 3D printing filaments known for their durability and versatility. ASA offers excellent weather resistance, making it ideal for outdoor applications, while ABS is prized for its strength and heat resistance, often used in functional prototypes and mechanical parts. Both filaments are suitable for producing robust, high-quality prints in engineering and consumer goods.
PC (Polycarbonate) and TPU (Thermoplastic Polyurethane) filaments are versatile materials for 3D printing. PC filament is known for its exceptional strength, heat resistance, and transparency, making it ideal for engineering prototypes, functional parts, and lighting components. TPU filament is flexible and highly durable, offering benefits like elasticity and impact resistance, which are perfect for creating phone cases, seals, and wearable items.
PA (polyamide, commonly known as nylon) and PET (polyethylene terephthalate) filaments are versatile materials for 3D printing. PA offers high strength, flexibility, and resistance to wear, making it ideal for engineering parts, gears, and functional prototypes. PET, known for its ease of printing, chemical resistance, and food safety (in its PETG form), is commonly used for creating durable household items, containers, and mechanical components. Both filaments excel in producing strong, reliable parts for various applications.
Support filament for 3D printers is a specialized material used to create temporary structures that support overhanging or complex parts during the printing process. It allows for greater design freedom, enabling the creation of intricate geometries that would otherwise be impossible to print. Once the print is complete, support material can be easily removed, often by dissolving in water or a specific solvent, leaving a smooth and precise final product.