As low as $278/mo with Affirm. Prequalify now
As low as $278/mo with Affirm. Prequalify now
Elevate your 3D printing game with the Bambu Lab X1E! Designed to handle high-temperature materials such as carbon fiber filament with ease, this powerhouse is the perfect blend of reliability and affordability for makers, educators, engineers, prototyping, and businesses alike. Whether you're diving into intricate projects or unleashing your imagination, the X1E is your ultimate companion for producing flawless, large-scale masterpieces.
Bambu X1E Bundle Includes:
$0.00
Take your 3D printing to the next level with the Bambu Lab X1E 3D printer! Perfectly crafted for high-temperature materials, this printer is a dependable and budget-friendly choice for crafters, educators, engineers, and businesses. Whether you're tackling advanced projects or exploring creative ideas, the X1E is your partner in achieving exceptional results with ease.
Get ready to dream big and print bigger with the spacious 256 x 256 x 256mm build volume (just over 10x10x10 inches!)—perfect for crafting stunning, large-scale creations without compromise. Paired with lightning-fast print speeds of up to 500mm/s, you’ll enjoy stunningly detailed 3D prints in record time—because beauty shouldn’t have to wait! Plus, with advanced precision technology, every layer is crafted with meticulous accuracy, ensuring your projects are as flawless as your imagination.
The Bambu AMS (Automatic Material System) brings advanced multi-material and multi-color printing capabilities to your 3D printing projects. This innovative system ensures filament stays dry and ready for use, minimizing print defects caused by moisture. With features like filament runout detection, winding management, and backup functionality, the AMS provides seamless material switching and consistent performance, making it easier to achieve high-quality, vibrant, and complex 3D prints.
Heat up your creativity with this versatile 3D Printer. The Bambu X1E is designed for advanced material extrusion, boasting a maximum hotend temperature of 320°C. This capability makes it ideal for printing high-performance materials like carbon fiber-infused NylonX and polycarbonate with ease. Additionally, its active heated chamber can reach up to 60°C (140°F), providing precise control over the internal printing environment to ensure exceptional print quality.
The Bambu Lab X1E offers dual automated bed leveling for enhanced print reliability. It uses two independent sensor sets and an algorithm to measure the nozzle height in relation to the bed. The lidar and analog force sensors provide an additional layer of redundancy for more accurate leveling. The Bambu Lab X1E guarantees smooth, uninterrupted printing, even during extended overnight sessions. It comes with Vibration and Extrusion Compensation for consistent print quality, along with AI Failure Detection to minimize delays. Additionally, the "Spaghetti Detection" system prevents print failures from worsening. The Bambu Micro Lidar sensor automatically adjusts the nozzle height, regulates the flow rate, and inspects the first layer, allowing you to leave the printer running while you focus on other tasks.
Print from anywhere, on any device: You can easily send prints via Bambu Studio and control your printer remotely with Bambu Handy. Additionally, the X1E supports printing from an SD card or through a local network, giving you flexibility in managing your print projects. The X1E offers enhanced connectivity options, including a newly added Ethernet port for reliable network communication in complex environments, ensuring a stable connection even in crowded wireless settings. It also supports WPA2-Enterprise Wi-Fi Authentication (EAP-PEAP/EAP-TLS/EAP-TTLS) and features individual physical kill switches for both Wi-Fi and Ethernet, meeting high network security standards.
| Feature | X1E | X1C |
|---|---|---|
| Wi-Fi |
Frequency Range: 2400 MHz - 2483.5 MHz WPA2-Enterprise: EAP-PEAP EAP-TLS |
Frequency Range: 2400 MHz - 2483.5 MHz WPA2-Enterprise: No |
| Ethernet |
Socket: RJ45 Speed: 100 Mbps | Full Duplex |
Socket: N/A Speed: N/A |
| Supported Filaments |
PLA, PETG, TPU, PVA, BVOH: Optimal ABS, ASA, PC, PA, PET: Superior Carbon Fiber Reinforced PLA, PETG, PA, PET, PC, ABS, ASA: Superior PPA-CF/GF, PPS, PPS-CF/GF: Ideal |
PLA, PETG, TPU, PVA, BVOH: Optimal ABS, ASA, PC, PA, PET: Ideal Carbon Fiber Reinforced PLA, PETG, PA, PET, PC, ABS, ASA: Ideal PPA-CF/GF, PPS, PPS-CF/GF: Compatible |
| Heating |
Active Chamber Heating: Yes Maximum Chamber Control Temperature: 60°C |
Active Chamber Heating: No Maximum Chamber Control Temperature: N/A |
| Air Purification |
Pre-filter grade: G3 HEPA filter grade: H12 Activated Carbon Filter type: Coconut Shell Granulated VOC Filtration: Optimal Particulate Matter Filtration: Yes |
Pre-filter grade: None HEPA filter grade: None Activated Carbon Filter type: Coal Based Pellets VOC Filtration: Capable Particulate Matter Filtration: No |
| Network Control |
Ethernet: Yes Wireless Networks: Wi-Fi Network Kill Switch: Wi-Fi & Ethernet Removable Network Module: Yes 802.1X Network Access Control: Yes |
Ethernet: No Wireless Networks: Wi-Fi Network Kill Switch: No Removable Network Module: No 802.1X Network Access Control: No |
| Toolhead |
Hot End: All-Metal Nozzle: Hardened Steel Max Hot End Temperature: 320°C |
Hot End: All-Metal Nozzle: Hardened Steel Max Hot End Temperature: 300°C |
| Speed |
Max Speed of Toolhead: 500 mm/s Max Acceleration of Toolhead: 20000 mm/s² |
Max Speed of Toolhead: 500 mm/s Max Acceleration of Toolhead: 20000 mm/s² |
| Sensors |
Bambu Micro Lidar: Yes Chamber Monitoring Camera: 1920*1080 Included |
Bambu Micro Lidar: Yes Chamber Monitoring Camera: 1920*1080 Included |
| Physical Dimensions |
Dimensions: 383*383*457 mm³ Net Weight: 15 kg |
Dimensions: 383*383*457 mm³ Net Weight: 14.13 kg |
| Software Update Support |
Guaranteed Bugfixes and Feature Updates until: October 10, 2028 Guaranteed Security Patch Updates until: October 10, 2030 |
Guaranteed Bugfixes and Feature Updates until: May 31, 2027 Guaranteed Security Patch Updates until: May 31, 2029 |
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.
