Makerbots Method delivers next-generation desktop 3D printing that combines industry expertise and technologies from Stratasys® with MakerBot’s accessibility and ease of use - providing professionals with an industrial 3D printer at a disruptive price point.
3D print accurate prototype parts with dual performance extruders, professional engineering materials and a 60°C heated chamber for rapid prototyping.
Engineered as an automated, tinker-free industrial 3D printing system, METHOD includes industrial features such as Dry-Sealed Material Bays, Dual Performance Extruders, Soluble Supports, and an Ultra-Rigid Metal Frame. METHOD's automation and industrial technologies create a controlled printing environment so professionals can design, test, and iterate faster.
- Dry-Sealed Material Bays
- Dual Lifting Nozzles
- Versatile Print Volume
- Circulating Heated Build Chamber (60°C)
- Smart Material Management
- 5-inch Full-Color Capacitive Touchscreen
- Removable Spring Steel Print Bed System
- Maximum Uptime with Swappable Material-matching Performance Extruders
- MakerBot LABS Compatible
- High-Resolution 3D Printing
- Automatic Extruder and Bed Callibration
- Dual-geared, 19:1 ratio
- 21 intelligent smart sensors
- Built-In Monitoring Camera
- USB-Port, Ethernet & WiFi
- MakerBot Print Slicing Software
- and much more!
Full Product Details
Rigid Enclosed Construction
The Makerbot Method features a a structurally-optimized metal frame that runs the full length of the body to offset flexing. Less flexing means more consistent prints with better part accuracy and fewer failures. The ultra rigid frame is critical to print complex assemblies with exact tolerances and a finished part dimensional accuracy of ± 0.2mm (± 0.007in)2.
* ± 0.2mm or ± 0.002 mm per mm of travel – whichever is greater. Based on Makerbots internal testing of selected geometries.
60°C Circulated Heated Chamber
The Makerbot METHOD leverages break through technologies and patents from Stratasys® to deliver a consistent and reliable circulating heated chamber. The chamber can be heated up to 60°C to control the temperature and quality of every layer—not just the first. While heated build plates are effective at reducing warping, the METHOD takes this further with full active heat immersion during the entire duration of the print.
With METHOD, the 60°C Circulating Heated Chamber significantly reduces part deformation while increasing part durability and surface finish.
Smart performance with Performance Extruder System
The METHOD's interchangeable extruder design delivers a growing platform with ever-improving interchangeable hardware while allowing for simple, tool-free maintenance. Each extruder is securely locked into place with a latch mechanism – minimizing extruder wobble and contributing to METHOD’s unique dimensional accuracy spec.
The Dual Performance Extruder system is built from the ground up to accelerate print times while providing dimensional accuracy. Each performance extruder contains a suite of sensors that detect when material is running low and allows for active jam detection during the entire print duration. It’s like autonomous protection for your print—and your printer. A lengthened thermal core and a fast start up time ensure that materials are ready to go when your ideas are.
The METHOD is packaged with 1 x Model 1A extruder and 1 x Support 2A extruder. The Model 1A extruder is optimized for printing with model materials such as PLA, Tough PLA, PETG and Nylon and the Support 2A extruder is optimized for printing exclusively with PVA dissolvable support material.
The METHOD is also compatible with the Model 1C and Makerbot LABS extruders. The 1C Composite Extruder can be purchased to bring all the benefits of printing Nylon Carbon Fiber parts to the MakerBot METHOD and METHOD X 3D printer. The MakerBot LABS Experimental Extruder is designed for unlimited material testing with third part materials.
Makerbot METHOD and METHOD X Extruder Material compatibility
Dual Geared Feeders
From great strength comes great performance. The 19:1 dual-drive gear ratio keeps material loaded and ready for reliable material extrusion at every layer.
Auto-nozzle lifting system
Print complex prototypes and end use parts with new confidence using MakerBots dual performance extruder system, auto-nozzle lifting and automatic nozzle calibration. This design mechanically lifts and lowers the second nozzle to avoid part crashing and minimize material contamination.
Intricate printing with PVA Soluble Supports
The Makerbot METHOD's dual performance extrusion system enables printing complex and accurate components with soluble support structures. Soluble support structures enable better support and surface quality when printing overhangs and reduces the risk of breaking detailed and fine parts during support removal.
Now you can print complex geometries that are impossible to print with advanced materials on a single extrusion 3D printer – Enabled by PVA soluble support material.
Flexible Spring Steel Build Plate
The build surface is a crucial element in FDM 3D printing and an uneven surface can lead to a warped print. The METHOD combines two elements to create a unique solution. First is an aluminum base plate, machined and factory-calibrated for extreme flatness. Second is a spring steel build plate that magnetically conforms to the base plate via a dozen high-strength magnets. This not only provides flatness, but also makes print removal a breeze. Just pick up the build plate and flex it to pop the print off.
Platform for advanced 3d Printing Materials
The Makerbot METHOD is a platform designed for printing with a wide range of professional 1.75mm 3D printing materials. MakerBot Materials for METHOD are manufactured to exacting diameter and quality specifications and shipped in a vacuum-sealed Mylar bag to preserve quality right up until opening. The new Smart Spool system sends all of your Makerbot material information including color and amount remaining wirelessly to MakerBot Print for up-to-the-second material management.
Users can immediately print Makerbot PLA, Tough PLA, PETG and Nylon materials with PVA soluble supports. The MakerBot METHOD is also compatible with Makerbot Method Carbon Fiber Nylon by purchasing the METHOD Model 1C Extruder.
Access unlimited materials with an Open Materials Platform enabled by MakerBot LABS (sold separately). With the MakerBot LABS experimental extruder you can print your choice of advanced 3rd party modelling materials, such as TPE (flexible) and PETG ESD. Built on the same industrial architecture as the Performance Extruder, the Experimental Extruder brings power and precision with the added benefit of interchangeable nozzle assemblies. Additionally you can discover pre-qualified materials from leading filament companies such as Polymaker - exploring new 3D printing applications.
Versatile Build Volume
The Makerbot METHOD has a versatile build volume of 190* x 190 x 196 mm (Width x Depth x Height).
*When printing with two extruders the maximum printable width (x axis) is 152mm.
METHOD's built-in onboard camera also allows users to monitor their print progress remotely with MakerBot Print or the MakerBot Mobile app
dRY-sEALED MATERIAL bAYS and Automatic Filament Loading
Dry-Sealed Material Bays form a near-perfect seal to keep material free of damaging humidity. A suite of built-in sensors provides that your material is stored in its optimal environment— a feature previously only available in industrial 3D printers.
These material bays feature pre-feeders to automatically load the filament; just drop the Smart Spool into the Dry Sealed Material Bays located on the front of the printer, and feed the filament tip into the slot, close the drawer and the printer loads the filament all the way up and into the extruders so that it’s ready to print.
Touch Screen / Connectivity
Swipe, tap, print. With the built-in 5” full-color capacitive touchscreen display, receive up-to-the-second status of your current print job and navigate menus in the most intuitive way you already know—with your finger.
The MakerBot METHOD utilizes a combination of automatic calibration and assisted leveling to maintain high performance printing.
With every dual nozzle 3D printer it is critical that the nozzles are calibrated to align with each other in X, Y and Z axis. Traditionally 3D printer nozzle calibration may be achieved through manual adjustment or through software compensation. The METHOD automates the Nozzle calibration process so you can focus more on product design and less on maintenance.
End to end Management with Ultimaker Software
The MakerBot METHOD is compatible with MakerBot Print and MakerBot Cloud management software.
MakerBot Print is the best and easiest way to prepare, manage, monitor, and share your 3D print files. Enjoy the best of everything that 3D printing has to offer on your Mac, PC or in the Cloud. Import design files and fine-tune settings for optimum results when printing, streamline print preparation and file management with native CAD file support and control and monitor multiple 3D printers via live camera feeds and print status updates.
MakerBot Cloud enables you to print and monitor your project - from your browser straight to your MakerBot 3D Printer. Add the Print from CAD integration for your favorite CAD program and start a print in just two clicks. MakerBot Cloud Supports SolidWorks, AutoDesk Inventor, AutoDesk Fusion 360 and Onshape. Open a native CAD file in MakerBot Cloud, adjust your print settings, and start a print on your connected MakerBot 3D printer. No downloads or updates required. Now print directly to your MakerBot 3D Printer in just two clicks from within your native CAD environment.
To learn more about the MakerBot METHOD, click the "Specifications" and "What Is Included?" tabs.