Snapmaker U1
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Snapmaker 2.0
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Specifications
General
Dimensions
584mm × 499mm × 730mm
Weight
18.2kg
Printing Properties
Printing Technology
Fused Deposition Modeling
Build Volume
270mm × 270mm × 270mm
Max Toolhead Speed
500mm/s
Max Acceleration Speed
20,000mm/s²
Toolhead
Toolheads Included
4
Max Flow for Hot End
32mm³/s[7]
Nozzle
Stainless Steel (more options in testing)
Max Nozzle Temperature
300°C
Nozzle Diameter
0.4mm
Filament Diameter
1.75mm
Part Cooling
Main & Auxiliary Part Cooling Fans
Heated Bed
Build Plate
PEI
Max Heated Bed Temperature
100°C
Supported Filament Type
Basic Material Compatibility
PLA, PETG, TPU, PVA
With Optional Seal Cover (Coming Soon)
PET, ABS, ASA
With Seal Cover & Hardened Steel Nozzle (Coming Soon)
PC, PA, PA-CF, PA-GF (more options in testing)
Electronics
Touchscreen
3.5-inch 320 × 480 Touchscreen
Data Transmission Methods
Wi-Fi, USB Flash Drive
Storage
8 GB eMMC
Live View Camera
Built-in Chamber Camera
Auto-calibration
Heated Bed Leveling
Mesh Bed Leveling
Active Vibration Control
Accelerometer & Input Shaping Calibration
Automatic Flow Compensation
Pressure Advance Calibration
Automatic Toolhead Offset Calibration
Coordinate Measuring Calibration
Automatic Filament System
Auto-feed
Supported
Backup Mode
Supported
Filament RFID Recognition
Supported
Failure Detection
Air Printing Detection
Supported
Filament Run-Out Detection
Supported
Power Loss Recovery
Supported
Anomaly Detection
Toolhead Swap Error Detection
Supported
Build Plate Presence Detection
Supported
Build Plate Obstruction Detection
Supported
Software
Supported Slicer
Snapmaker Orca, OrcaSlicer
APP
Snapmaker APP
Operating System
Software
Windows, macOS, Linux
APP
Android, iOS
Firmware
Firmware
Klipper
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notes:
- [1]This data was obtained by printing with PLA filament and a 0.4 mm standard-flow nozzle, using a 0.2 mm layer height, 200 mm/s outer wall speed, and 250 mm/s infill speed.
- [2]“Purge” here refers specifically to the process of squeezing out the remaining material from the extrusion path during color or material changes. It does not include the “wiping” procedure used to clean residual filament from the nozzle. During multi-material printing with the Snapmaker U1, a small amount of filament is used in a wiping tower to ensure print quality.
- [3]This is a typical result from Snapmaker Lab tests and is for reference only.
- [4]Filament usage may vary with model size, color layout, and print settings. In Snapmaker Lab tests under similar conditions, U1 used roughly 17% to 47% of the filament required by other single-head printers for the same multi-color prints.
- [5]This data was measured using clean nozzles. Calibrating with an unclean nozzle could lead to less accurate results.
- [6]Detection capabilities will be enabled in December 2025 through an OTA firmware update.
- [7]This data was obtained using Snapmaker ABS filament, under a printing temperature of 280°C.
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