E3D E3D Titan Aero HotEnd and Extruder - 3.00mm (24v)
The Titan Aero is a compact and rigid hotend that is easy to install and maintain. It is built on the E3D V6 all metal hotend and can print any filament at temperatures up to 300°C.
- Compact and rigid design
- Easy to install and maintain
- All metal hotend built from the E3D V6
List Price: | $101.49 |
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Price: | $101.49 |
Price: | $... |
Availability: | Out of Stock Notify Me |
Compact & Rigid design
The magic of the Aero is combining the hotend and extruder, producing a very slim profile. Upgrading to a Titan Aero allows for an additional 25mm of vertical (Z-axis) build volume thanks to it's small size. A compact design also makes the Aero extremely rigid and capable of printing faster than other hotends.
Easy to install and maintain
Mounted using the standard NEMA17 pattern, the Titan Aero is ready to be installed in a wide variety of existing 3D printers. Incorporating Titans engineering and proven extrusion system makes Aero a highly reliable and feature rich component. Loading and unloading filament, manual extrusion, adjusting idler tension and clearing debris are effortless with this simple design. The use of Titans 3:1 gearing allows for smaller motors and a lighter weight carriage, improving the long term reliability of your 3D printer as a whole.
All metal hotend built from the E3D V6
Built on the legendary E3D V6 all metal hotend, the Titan Aero reliably prints any filament at temperatures up to and beyond 300°C. With the V6 heatbreak, you can interchange components with any E3D parts. Choose your own temperature sensor, heater cartridge or nozzle, including any Volcano products.
The complete Titan Aero
Ultra responsive, excels with flexible material
The slim profile of the Titan Aero means the shortest possible filament path, making Aero the perfect extruder and hotend combo for printing flexible material. 3D printing flexible filament is challenging because the filament can bend and jam between the extruder and nozzle, a situation all but eliminated due to the tiny space between those two areas on the Titan Aero. This feature extends to standard filament as well, yielding improved responsiveness of the extruder. Start, stop and retract faster and with greater accuracy than any other hotend, providing more accurate, cleaner prints.
The new heat sink minimized filament path, making flexible filament easier to feed
What's in the box?
- Titan Aero Heatsink
- Heatsink Cooling Fan
- V6 Heatbreak
- V6 Heater Block
- v6 Heater Block Silicone Sock
- 30w Heater Cartridge
- Thermistor
- V6 0.4mm Nozzle
- Titan Body
- Idler Lever
- 1.75mm Filament Guide
- 2.85mm Filament Guide
- All required assembly hardware and electronics
Includes all the necessary assembly tools
Questions
Will this work with Nylon? How much of a gap should I leave between the support and part?
Could you please supply some guidance regarding slicer settings for this material? I am printing with an Ultimaker S5 and U3 (same print cores - 0.4AA), temp set to 215 C, and slicing with CURA 5.4. This stuff (Natural PRO Series Breakaway Support Material) sticks to tough PLA to the point where it is useless, and barely works, that is you can't remove the support material, with PLA - even whit the 'support Z distance' and 'support top distance' both set to 0.4 mm.
I would love to leave a review on this product but can’t figure out how. I generally love Matterhacker filaments, but I just threw away two full spools of this, one in1.75 and the other in 2.85 size. I tried using this first with PolyMaker Tough PLA and it stuck like glue. No problem, I assume this is just designed to work with MH PLAs, so, being a researcher, I decided to try some experiments using Ultimaker, PolyMaker, and MH breakaway support with both PolyMaker and MH tough PLA filaments. Bottom line, the worst combination was MH breakaway with PolyMaker tough PLA, but MH with MH tough PLA was not much better. Ultimaker worked well with both tough PLAs but the best was Polymaker’s Polysupport with both MH and PolyMaker tough PLA. I would advise not getting this filament and instead going with the PolyMaker Polysupport or the Ultimaker breakaway support if you have a 2.85 printer.
Can this material be used for support when printing polycarbonate parts?
What are the optimum print settings for this material on an Ultimaker 3? I am getting either very stringy (too high temp) or clumpy (too low temp) supports. Also, the supports stick to the model material like glue (using PETG), regardless of temperature, and create rough surfaces due to the comingling of the 2 materials. I suspect the fan speed or another setting is at fault. It would be helpful to get more details to get this to work. This material is very different from the Ultimaker Breakaway brand. This material is much more brittle and has a print temperature about 20 °C lower. Therefore, I am assuming it is a very different composite. Therefore, none of the branded material settings would apply.
I'd like to print a fragile part. Is this material going to dissolve in water or degrade particularly quickly in sunlight?
Any idea the dimensions of the spool itself? Trying to see if it would fit in the AMS on the Bambu Lab X1 Carbon.
I'm having trouble with my extruder biting into the filament then not being able to extrude it further. It randomly stops extruding during prints or won't start extruding from the beginning. What can I do to fix this?
Can I print this with a standard nozzle? My ultimaker 3 came with a special nozzle for PVA
What should the printer settings be for this, in terms of the "interface" to the part? Should this be treated like soluble support, with zero gap? I tried those settings with PLA, where the part and support material were horizontal and the breakaway material stuck like crazy to the PLA. Trying PETG now to see if it's removable. BTW I'm using a Prusa i3 Mk3s with PrusaSlicer