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ZMorph Bambu Lab X1E 3D Printer
The ZMorph Fab is a multi-tool 3D printer that is capable of single/dual FDM 3D printing, laser cutting/engraving, CNC milling, and thick paste extrusion. It has a work area of 235 x 250mm, is desktop/benchtop-friendly, and has a built-in air filtration and quiet operation. It is capable of quickly and easily switching between different toolheads, making it a great one-stop machine workshop for a variety of projects.
- Enclosed, Desktop-friendly
- Single Extrusion 3D Printing
- Dual Extrusion 3D Printing (Optional)
- Laser Cutting/Engraving (Optional)
- CNC Milling (Optional)
- Thick Paste Extrusion (Optional)
| Price: | $2,899.00 (with add-ons) |
|---|---|
| Availability: | In Stock |
| Order Now: | Ships Monday Free U.S. Shipping |
ZMORPH FAB MULTI-TOOL 3D PRINTER
MULTI-FABRICATION IN ONE MACHINE
Experiment, research, or produce a wide number of applications with the ZMorph Fab, the multi-tool machine capable of additive and subtractive manufacturing.
Key Features of the ZMorph Fab Multi-Tool 3D Printer:
- Work Area: 235 x 250mm*
- Capable of Single/Dual FDM 3D Printing
- Capable of Laser Cutting/Engraving
- Capable of CNC Milling
- Capable of Thick Paste Extrusion
- Desktop/Benchtop-Friendly
- Built-In Air Filtration
- Quiet Operation
- Enclosed
*Z height work area varies. See tech specs for more info.
The Zmorph Fab is your one-stop machine workshop capable of multiple production methods and compatible with a variety of materials appropriate—right from your desktop or workbench.
- Capable of the Following:
- Single FDM 3D Printing
- Dual FDM 3D Printing
- Laser Cutting/Engraving
- CNC Milling
- Thick Paste Extrusion
INTERCHANGING MADE EASY
Switching from a laser cutter to a 3D printer to a CNC mill is easier than ever with the ZMorph Fab and its specially engineered toolhead.
- Swap Toolheads in Seconds
- Easy with Auto Toolhead Detection
- Save Big With Toolheads Versus Separate Machines
ENGINEERED FOR EXCELLENT USER EXPERIENCE
The ZMorph Fab is engineered with industrial-standard components for reliable performance, all while being enclosed in a heavy-duty aluminum frame that provides stability and keeps production debris within the machine.
- Reliable Performance with High-Quality Parts
- Protective, Rigid Enclosure
- Makes Nearly No Noise
- Peacefully & Safely Work Next to ZMorph Fab
HASSLE-FREE 3D PRINTING
ZMorph Fab makes FDM 3D printing easy with its automatic bed leveling, material compatibility with the most commonly used filaments, and optional multi-material capabilities for those complex geometric models.
PRECISE CNC MILLING
Professionals can expect reliable, precise CNC milling results on the ZMorph Fab that's engineered to accommodate and withstand vigorous CNC machining operations.
- Compatible Materials: Wood, Composites, Soft Plastics, Soft Metals
- Stable Operation with Robust Frame & Reinforced Cartesian Motion System
- Enclosure Keeps Debris In & Electronics Running Safely
- Material Mounting on Build Platform Available
- CNC Toolhead Optional
CLEAN LASER CUTS
ZMorph Fab's Laser Toolhead uses a 6W blue laser diode to make precise laser cuts and engravings suitable for decoration, signage, production, and other applications.
- Easy to Use
- Compatible with CNC Worktable
- Great for In-House PCB Production
- Laser Toolhead Optional
THICK PASTE TOOLHEAD
Experiment 2D or 3D printing with paint, paste, and other materials compatible with the Thick Paste Toolhead for the Zmorph Fab Multi-Tool 3D Printer.
- Compatible Materials: Medium or Dense Mass Materials
- Chocolate, Paint, Ceramics Silicone, Porcelain, etc.
- Experimental Applications: Art, Material Research, Cake Decorations, etc.
- Safe for Educational Applications
- Thick Paste Toolhead Optional
SEAMLESS DEDICATED SOFTWARE
Voxelizer is ZMorph's dedicated software that conveniently provides full control over all fabrication methods on the Fab Multi-Tool 3D Printer for a seamless experience.
- Preps, Slices, and Export Files for All of Fab's Fabrication Methods
- Supports All Fab's Toolheads and Functions
- Built-in Presets to Succeed With Common Materials
- Free & Optimized Specifically for the Fab
- Intuitive Software User Interface
What Comes with the ZMorph Fab Multi-Tool 3D Printer?
| 3D Printer | 2-in-1 | Advanced Set | 3-in-1 | 5-in-1 |
|---|---|---|---|---|
 |  |  |  |  |
| Fab Printer | ✔ | ✔ | ✔ | ✔ |
| Heated Bed | ✔ | ✔ | ✔ | ✔ |
| Cooling Fan | ✔ | ✔ | ✔ | ✔ |
| Single Extruder | ✔ | ✔ | ✔ | ✔ |
| 0.4mm Nozzle | ✔ | ✔ | ✔ | ✔ |
| Spool Holder | ✔ | ✔ | ✔ | ✔ |
| HEPA Filter | ✔ | ✔ | ✔ | ✔ |
| Right Cover | ✔ | ✔ | ✔ | ✔ |
| 0.5kg PLA | ✔ | ✔ | ✔ | ✔ |
| Printa Adhesive | ✔ | ✔ | ✔ | ✔ |
| Power Cord | ✔ | ✔ | ✔ | ✔ |
| Cleaning Needle | ✔ | ✔ | ✔ | ✔ |
| SD Card | ✔ | ✔ | ✔ | ✔ |
| Spatula | ✔ | ✔ | ✔ | ✔ |
| Screwdriver | ✔ | ✔ | ✔ | ✔ |
| Wrench | ✔ | ✔ | ✔ | ✔ |
| 8mm Spanner | ✔ | ✔ | ✔ | ✔ |
| 13mm Spanner | ✔ | ✔ | ✔ | ✔ |
| Allen Keys x4 | ✔ | ✔ | ✔ | ✔ |
| Safety Goggles | ✔ | ✔ | ✔ | |
| CNC Clamps x2 | ✔ | ✔ | ✔ | |
| CNC Cutter | ✔ | ✔ | ✔ | |
| CNC Worktable | ✔ | ✔ | ✔ | |
| Milling Toolhead | ✔ | ✔ | ✔ | |
| Laser Toolhead | ✔ | |||
| Dual Extruder | ✔ | |||
| Thick Paste Toolhead | ✔ |
*If there are discrepancies, the manufacturer's packing list/manual will be the most up-to-date list.
What are the Technical Specifications of the ZMorph Fab Multi-Tool 3D Printer?
| GENERAL | |
|---|---|
| Manufacturer | ZMorph |
| Manufacturer Location | Poland |
| Assembly | Fully-Assembled |
| Machine (without a spool holder)1 (W × D × H) | 520 x 500 x 450mm (20.5" x 19.7" x 17.7") |
| Machine (with a spool holder)1 (W × D × H) | 520 x 500 x 570mm (20.5" x 19.7" x 22.4") |
| Weight (Printer Only) | 14.45kg (31.9lbs) |
| Weight (Single Extruder Toolhead) | 0.7kg (1.5lbs) |
| Weight (Dual Extruder Toolhead) | 1.0kg (2.2lbs) |
| Weight (CNC Milling Toolhead) | 0.9kg (2lbs) |
| Weight (Laser Toolhead) | 0.8kg (1.8lbs) |
| Weight (Thick Paste Toolhead) | 0.6kg (1.3lbs) |
| PACKAGING DIMENSIONS | |
| Package Dimensions (W × D × H) | 600 x 600 x 570mm (23.6" x 23.6" x 22.4") |
| Weight (Full Set) | 28.7kg (63.3lbs) |
| 3D PRINTING PARAMETERS | |
| Technology | FDM / FFF |
| Filament Diameter | 1.75mm |
| Toolhead(s) | Single Extruder Toolhead Dual Extruder Toolhead |
| Work Area (W × D × H) | 235 x 250 x 165mm (9.25" x 9.84" x 6.49") |
| Max Printing Temperature | 250°C |
| Max Bed Temperature | 100°C |
| Nozzle Material & Diameter | Brass 0.4mm |
| Layer Resolution2 | 0.05 – 0.4 mm |
| Dimensional Accuracy | ±0.2mm |
| Minimum Wall Thickness2 | 0.4 mm |
| Print Speed | 40mm/s |
| Travel Speed | 120mm/s |
| Build Platform | Heated PCB Bed |
| Bed Leveling | Automatic, Manual |
| Third-Party Material Compatibility | Yes |
| Material Compatibility | PLA, TPU, PETG, ABS, PVA, HIPS, ASA, TPE, PP, PMMA |
| CNC MILLING PARAMETERS | |
| Technology | CNC Milling |
| Toolhead(s) | Milling Toolhead (CNC Spindle) |
| Work Area3 (W × D × H) | 235 x 250 x 85mm (9.25" x 9.84" x 3.3") |
| Spindle Max Power | 300W |
| Print Speed | 0.1 ~ 20mm/s |
| Travel Speed | 120mm/s |
| Noise | 70 dB |
| Tool Holding | ER-11 Collet, compatible with 1/8th" bits |
| Build Platform | CNC Worktable |
| Bed Leveling | Manual |
| Material Compatibility | PCB/FR4, Carbon, Textolite, PVC, Plexi, PC, Dibond, Hips, PP, PET, PE, Plywood, Beech Wood, Aluminum, Brass, Copper, Wax, Modeling Board, Styrodur, ABS, Nylon, HDPE, PTFE, LDPE, POM |
| LASER CUTTING/ENGRAVING PARAMETERS | |
| Technology | Laser Cutting / Engraving |
| Toolhead(s) | Laser Toolhead |
| Work Area3 (W × D × H) | 235 x 250 x 145mm (9.25" x 9.84" x 5.7") |
| Laser Power | 6W Blue Laser Diode |
| Laser Class | 4 |
| Laser Wavelength | 405nm |
| Laser Spot Size for 50mm | 0.1 x 0.2mm |
| Laser Spot Size for 80mm | 0.1 x 0.3mm |
| Print Speed | 15mm/s |
| Travel Speed | 120mm/s |
| Noise | 58 dB |
| Build Platform | CNC Worktable |
| Bed Leveling | Manual |
| Material Compatibility | Wood, Wood-like, Leather, EPP, Paper, Cardboard, Felt, Foil, Laminate, EVA, Foam, CCL FR4 |
| SOFTWARE | |
| Slicer Software | Voxelizer |
| Supported File Format | .stl, .obj, .step, .dxf, .png, .bmp |
| Supported OS | Windows 7/10 (64-bit) or Higher MacOS 10.13 or higher |
| TEMPERATURE PARAMETERS | |
| Ambient Operation Temperature | 15 ~ 30°C |
| Storage Temperature | -10 ~ 40°C |
| FILTRATION PARAMETERS | |
| Filter Type | HEPA/Carbon |
| Ventilation Power | 1.54W |
| Filter Dimensions | 80 x 80 x 25mm (3.1" x 3.1" x 1") |
| Filter System Dimensions | 80 x 80 x 50mm (3.1" x 3.1" x 2") |
| Filtration Control | Temperature |
| COMMUNICATION | |
| Display | LCD Touchscreen |
| Connectivity | USB, Ethernet, SD Card |
| ELECTRICAL PARAMETERS | |
| AC Input | 100 VAC ~ 4A 50/60Hz 240 VAC ~ 2A 50/60Hz |
| Max Power Consumption | 350W |
| Max Power Consumption (with Single Extruder Toolhead) | 220W |
| Max Power Consumption (with Dual Extruder Toolhead) | 230W |
| Max Power Consumption (with CNC Milling Toolhead) | 330W |
1 Add 50mm (2") to the Width if HEPA Filter is attached.
2 With the stock 0.4mm nozzle.
3 Height may vary depending on CNC bit installed.
Questions
I've used this and CarbonX, the competing 3DX Tech product. Oh my goodness, what a world of difference. The NylonX is everything you want from a carbon nylon product, which is to say excellent strength, superlative layer bonding, exceptional toughness, great bridging, great dimensional stability. Really this is all around my #1 favorite performance filament, and excluding certain applications where carbon filled PC is better, this is what I reach for when I need a high performance part for an end-line product. This fantastic material couldn't be more different from the 3DX Tech CarbonX. 3DX Tech makes a big point of saying how their material has a higher tensile strength, and this might be possible, however they do so at a major cost of toughness, layer bonding, and all around performance. Their material I'd outright call brittle, it snaps readily even off the spool, whereas NylonX needs to be cut, it doesn't break off the spool. This is the gen3 CarbonX Nylon from 3DX Tech I'm talking about which has these problems. Needless to say, I'm back on Matterhackers' NylonX and in a big way. The real world product performance is just so much better, and we'll continue to faithfully use it in our production products. The customer support is much better as well. I know this is the question section, however having forwarded this positive feedback to Matterhackers support team, they suggested I share it here. :) I hope this helps anyone comparing the two products.
Will NylonX absorb moisture once a part is printed, will absorbing water make the pieces change shape or dimensions
WHAT IS THE MATRIX OR BASE THERMOPLASTIC FORMS THIS FILAMENT
Do you need a heated bed plate ?
Does this print well on a stock Prusa i3 mk2s?
How well does NylonX stay together in very cold temperatures?
Can your post process parts be sealed with clear coat or epoxy to prevent moister absorption?
I trying to print with the settings from the video. I am having a problem with the finish being really rough like sandpaper and the material wanting to curl up. Any ideas on what I need to try to fix the issue?
What is a is the recommended infill for printing when it comes to strength?
How does NylonX compare to your polycarbonate filament in terms on overall strength and rigidity? Which filament would be better for RC car / quadcopter parts? Would NylonX work for gears or would one of your other nylon products be better suited?
Can I use this with a 1.75mm x 0.25mmhardened steel nozzle or is it too thin?
do I need an enclosure around the printer (like ABS) to print with this material? I plan on printing very large parts.
Can I purchase a spool of NylonX, then print without baking in an oven and expect good results? Is everyone using an oven beforehand to pre-bake their spools? Or is this the recommended procedure after leaving NylonX out in a non-sealed environment for a while?
The maximum my nozzle will go to is 220 C. It looks like it is recommended to be 240-260 C. Will it work at this slightly lower temperature?
what do use to glue parts together?
what is the spool size , all dimensions
What is the compatibility of NylonX CF to engine oil and/or other petroleum based products
WHAT IS THE DENSITY OF THIS FILAMENT?
Can I ask where you got the storage bins seen at about 4:30 in the video? I have found some online but they seem very expensive for what they are... Yours look "off the shelf" and probably much cheaper :)
Can this material be used to make pieces that are going to be submerged in water and suffering from water friction?
ok I have a Bambu x1 carbon with a .04 mm nozzle and a .02 mm nozzle I can use. also a using a texture plate. I have not had much luck printing with this filament. any helpful tips to make it so I can print with this filament
Is the NylonX carbon fiber filament considered self-lubricating?
Do you have a SAFETY DATA SHEET for NylonX that has an emergency contact number? My corporate safety team won't except a SDS without the contact number so I can't get them approved for use in our facility. Thank you for any assistance you can give me in advance.
What size nozzle should I use to prevent the chopped CF from clogging? Will a .4mm stainless or hardend steel work or should i go larger?
What is the shrink % for nylon x for slicer compensation? Thank you
Does NylonX work with heat-thread inserts? If so, what's an optimal temperature to heat the inserts? I've been using SL-type brass inserts on my PLA parts with great success, but I'd definitely change types or brands if there's a specific one recommended for use with this product
Recommended nozzle diameter? .4 vanadium by slice clogged and caused a failure that resulted in a major repair to the machine.
Does NylonX require a direct drive extruded or will a Bowden extruder suffice? Thanks!
Hello, What is the Yield stress, Young's Modulus and Poisson's ratio of the NylonX material. I was looking at the technical data sheet but this information was not available. I was hoping to get more information. Thanks, Eric
How does Nylonx compare with ABS in terms of heat resistance? I am looking at printing functional parts for my engine compartment. (Air intake) Was wondering if it would be worth using Nylonx. Will it withstand more than 80 degrees Celsius repeatedly without losing strength?
Hello Are there any sellers in the UK of genuine NylonX? I want to try this filament, but I want to make sure I am buying the genuine stuff and not PETG or PLA junk sporting your labels. Thanks
Is the monoprice delta mini a good enough printer to use this filament?
What is the max operational temperature this can handle?
What is the rate Tg? is it higher or lower than Taulmans Alloy 910?
I dont think this is correct, Nylon has a low Tg but keeps its strength at temperatures above Tg. The Vicat softening point is a better meassure of temperature resistance. Som nylons have a Vicat softening point of 180C with a Tg of 67C as compared to polycarbonate with a Tg of 147 and a Vicat softening point of 140C to 150C
The heat deflection temperature is similar to other nylons - 65-85C depending on the load.