Bursting with industry-leading features, Bambu Lab X1 Series distinguishes itself first by its AI-powered automated capabilities. A Quad-core SoC with a dedicated 2TOPs Neural Processing Unit, matching Bambu Micro Lidar and over 40 sensors, provides a series of automated features, including spaghetti detection, first layer inspection, automated bed leveling with dual redundancy, extrusion calibration for linear advance flow control, and active vibration compensation. Bambu Lab X1 Series allows users to print multiple colors and materials at high speed and with incredible smoothness, raising the bar on consumer-grade 3D printing technology.
"There has been a difference between the public imagination of 3D printers fed by pop culture, which gives the idea of a magic box that satisfies every need in the blink of an eye, and the actual experience of using a 3D printer. Our goal is to create a state-of-the-art 3D printer which narrows that gap and makes 3D printing a true work of creativity." Founder and CEO of Bambu Lab, Dr. Ye Tao.
Limitless Creativity with More Colors and Materials
Printing in multiple colors and materials presents a challenge for consumer-grade 3D printers. Countless creative ideas and projects are either restrained by the limited choices of colors and textures or undermined by the lack of seamless filament management. That's where Bambu Lab's Automatic Material System (AMS) comes in.
Bambu Lab AMS is an intelligent system that communicates with the toolhead to guarantee smooth feeding and automatic mid-print filament switching. It can detect the tension on filament and actively adjust the feeding pace. With RFID technology, Bambu Lab AMS identifies filament loaded inside and automatically configures the most appropriate print settings. Equipped with humidity sensors and with an airtight enclosure, Bambu Lab AMS keeps the filament dry and ready to use, which is especially helpful for engineering grade materials such as nylon and polycarbonate, which are hydroscopic. Each Bambu Lab AMS is composed of 4 filament slots, and up to 4 AMS can be installed in parallel. With multiple filament slots at disposal, it's now possible to use snap-away support material or dissolvable filament to minimize the pain of removing supports.
Bambu Lab X1 Series unlocks more demanding materials than PLA and PETG by using advanced parts and thermal control. It is equipped with a 300°C all-metal hot end with a steel nozzle. The resilient steel drive gear provides steady filament feeding with maximum abrasion resistance. The X1 Series opens the door to a wider selection of materials, including PA, PC, PET, HIPS, PVA, and TPU. The X1-Carbon, which is equipped with extra cooling and a hardened nozzle and carburized drive gear, specializes in carbon fiber and glass fiber reinforced polymers.
High Speed Printing at 20,000 mm/s² Acceleration
The breathtaking speed of Bambu Lab X1 Series is made possible by strong mechanical parts, rigid and ultra-lightweight components, a high-flow hot end, and a powerful cooling system. The welded steel chassis provides a more solid platform than the bolted structure in most consumer-grade 3D printers. The CoreXY motion system and featherlight full-carbon X rail allow the ultra-lightweight toolhead to accelerate at 20,000 mm/s² with very little compromise in printing quality.
Ultra-Smoothness with Active Vibration Compensation
One of the unwanted side effects of high-speed printing is ringing. The mechanical vibrations coming from the 3D printer leave marks on the print surface in the shape of "echoes". Bambu Lab X1 minimizes ringing by automatically detecting vibration frequency and providing subtle motion compensation.
Another challenge for high-speed printing is that the extrusion needs to catch up with the sudden acceleration in X and Y movement. In the X and Y axes, it is simply Newton's law and a=F/m. For the extrusion, it is hydrodynamic and extremely difficult because the molten plastic is viscous, just imagine that you want to dynamically control the flow of honey being squeezed out of a plastic bottle at a fast pace. The X1 Series utilize a hydrodynamic model to predict flow behavior, which is sensitive to fluid properties. Bambu Micro Lidar then automatically performs calibrations to measure the hydrodynamic properties of each filament and temperature setting.
Lower Carbon Footprint
- Energy-saving: Bambu Lab X1 Series' Isothermal hotbed and shortened print time save up to 80% carbon emission in the printing process.
- Eco-friendly packaging: as a result of our eco-friendly filament packaging, 250 g of plastic is saved for every 1 kg filament used when compared with traditional methods, in addition to less transportation-related emissions for each roll of filament.
- Space saving: Bambu Lab X1 Series has the most effective build-volume-to-printer-dimension ratio, giving you room to print large projects in a small space.
- Noise reduction: Bambu Lab X1 series reduces noise pollution, thanks to its advanced motor controller, enclosed structure, and high quality-parts.
Price and Availability
Bambu Lab X1 series will be launched on Kickstarter on the 31st May, followed by Bambu Lab's official store as well as selected e-commerce platforms.
| Includes | Early Bird | KS Special | MSRP |
X1 | • Bambu Lab X1 • 250 g Bambu PLA Filament | $699 | $799 | $999 |
X1-Carbon | • Bambu Lab X1-Carbon • 250 g Bambu PLA Filament | $849 | $949 | $1199 |
X1-Carbon Combo | • Bambu Lab X1-Carbon • Bambu Lab AMS • 250 g Bambu PA-CF Filament • 250 g Bambu Support Filament • 250 g Bambu PLA Filament | $999 | $1149 | $1449 |
Shipment will start immediately upon the completion of the Kickstarter campaign in July.
Official web:
www.bambulab.com