Slice Engineering Red PRO Series TPU (Thermoplastic Polyurethane) - 2.85mm (1lb)
Boron nitride thermal paste is used as a heat transfer compound and release agent coating for many 3D printer hotend components. This 5cc applicator is perfect for installing new or replacement hotend parts, or for any mating surfaces that conduct heat.
Simply apply this paste into the respective space on your 3D printer’s heater block, install your heater cartridge, thermistor, or nozzle into the space, and you're ready to use your Mosquito Hotend for some awesome 3D printing projects! This paste is not electrically conductive, and will not seize, eliminating risk of shorting out or damaging your 3D printer components.
| Price: | $50.00 (with add-ons) |
|---|---|
| Availability: | Pre-order Notify Me |
| Est. In Stock: Mar 23rd | |
| Order Now: | Ships when In Stock Free U.S. Shipping |
ROCKET SCIENCE BROUGHT TO YOUR PRINTER
Did you know NASA has been experimenting with Boron Nitride thermal paste for use with future space flight missions in high temperature applications? It's true! What makes this material an ideal candidate for NASA and for your 3D printer is that Boron Nitride paste enhances the conduction of heat between components without conducting electricity, allowing your 3D printer’s heater block to distribute heat evenly, and therefore delivering the highest print quality in the shortest amount of time.
Boron nitride paste will not only help conduct heat between your 3D printer’s hotend components, but when the time comes to swap or replace a hotend component, the paste helps act as a release agent, helping ensure your heater cartridges, thermistors, and nozzles do not become permanently stuck to your 3D printer’s heater block. Unlike most anti-seize compounds, Boron Nitride does not conduct electricity, also safeguarding the delicate electronics inside your hotend.
Want to know more? Click here to view the SDS on Boron Nitride Thermal Paste.
Questions
What is the difference between the MH PRO series TPU and the MH Build Series TPU?
I have had generally good luck with this material. I love the properties of it. I would like some advice on reducing some stringing. I use Prusa MK3S with the Generic FLEX setting. I get a big string from the purge line to the skirt and from the skirt to the print. I am using a 240 degree print temp and my speeds are all around 30.
Is this designed to be printed in a machine with a bowden extruder?
I ordered this material (Matter Hackers Pro Series, 1.75mm, TPU, Gray) for my Bambu Lab X1E printer. When I tried to load it into the AMS, it failed and got stuck. I needed to disassemble the filament tubing to get it unstuck. Is there something that could be done to use this material with the Bambu Lab X1E printer? Perhaps mounting it to the rear spool instead if in the AMS...? Do you have any experience with this material for this printer? Thank you. Brian Wixom brianwixom@gmail.com
I discovered that Metthackers pro clear TPU is easy to break, while the cheap inland white TPU is nearly impossible to break. So I don't get it, the NylonX is major strong and I use it as the backbone of everything, but I don't understand how a cheap filament, precisely inland white TPU, outperforms mettahackers pro series in utility function. It prints better, but I can make the cheap stuff print near perfect with extra attention to settings. So I ask, whats really up with mettahackers TPU, it concerns me because I was going to invest in Mettahackers Nylon and now I am in doubt. I simply want to know why the cheap stuff was way beter than mettahackers pro series?? Please.
Can this be used as a base, with a layer change/stop and then PLA printed on top of it? I want a flexible bottom to a specific print, but I don't want the entire print flexible...
What's the shore hardness?
What are temperature limits for printed parts?
How well do TPU printed objects hold up against gasoline and oils? Thinking about making an intake boot? I'd like it to hold around 100 psi. any recommendations?
What is the chemical resistance to water rating?
What is the Light Transmittance Rating of this material? This is a commonly reported property, usually expressed as % of total light transmittance. 100% = perfect clarity, all light crosses through 0% = perfect opacity, no light crosses through.
Where is the Safety Data Sheet?
1.7mm as delivered, which made it very prone to kinking. Not printable with the EZR Struder on an Ender 3, with any temperature or nozzle. 1.8mm & above seems necessary with flexible filament. Thicker is better because it needs to transfer force to the nozzle. It might work with a dual drive direct extruder with real tight passages.
What is the Young's modulus of the material
What is the moisture level it ships with?
The TDS says "Print Temp 230C +/-10" and "Bed Temp 70C +/-10". The images on this web page say "Hot End Temp 250C +/-10" and "Bed Temp 50C +/-10". Is this inconsistency a hallmark of the MH PRO series TPU???