3D Printing Filaments and Electricity: A Shocking Reality

Hi, first time commenting.
Years ago as a young engineer we developed small motor protection devices called polymeric PTCs. We used carbon spheres instead of carbon fiber but saw an effect similar to what you observed. At lower voltages and lower temperatures the plastic acts as an insulator. As the voltage increases a tunneling effect can be observed. As the temperature of the polymer increases, the current flow reduces.
Loading the polymer with higher levels of carbon will produce a low resistance device at room temperature that switches to a high resistance in a sigmoidal curve. Hense, a motor protector. The trickle current keeps the temperature high until the circuit is opened. The the device will cool and reset to a low resistance again.

I was hoping more would turn out to be conductive. The cost of conductive filament is pretty high, and it would be nice to be able to print static dissipative enclosures and such for sensitive things

You are just great. You don't just swallow a comment. You read and analyze. I like your channel a lot. Thanks a lot.

Carbon Black (often of colorant) can impact RF. We utilize different variants of carbon black additive into injection molded boxes for radar sensors on autonomous haul trucks. Sheet metal boxes originally used were causing to much interference issues and giving faulty readings.

As an above average Clough42 enjoyer, I wasn’t too excited when I saw this weeks subject. However I must say, it was SHOCKINGLY enjoyable. 🤓⚡️⚡️

This was interesting to see. I think it may be mostly down to chance. The plastic itself is very high resistance, but the carbon fibres are lower resistance. Since the carbon fibres are distributed randomly they could align into a chain, close enough together to conduct, which might be what you saw with the Bambu labs PAHT-CF. I would also think that the longer the individual pieces of carbon fibre, the higher chance it ends up conductive, since you have to align less fibres then for the same distance. If Prusa uses recycled carbon fibre, it could be that they don’t chop or grind it up as much as the others, so the fibres are left longer.
Longer fibres are better for mechanical properties, but worse for clogging. Bambu lab recommends a 0.6 mm or bigger nozzle for the PAHT-CF, which might mean that it’s fibres are longer and more likely to clog.
It seems the two things that should effect it is fibre length and fibre content, higher of either probably means it is more likely to conduct, but I wouldn’t want to rely on them being non conductive. It would be interesting to see an extended test of some of the filaments to see if it was just chance that the PAHT-CF conducted and to see if some of the other filaments would conduct too.
It would be very interesting to see you use filament with glass microspheres in it, they are supposed to have similar effects to carbon fibre but are supposed to be insulators too since the glass spheres are highly non conductive, so they may be an option for situations where you definitely do not want any conductivity. Glass fibre, glass microsphere and Kevlar (aramid) might be good to try.
Edit: nylon with glass fibres is commonly used in injection moulding, sometimes at least 40% glass fibre by weight and it is used for all kinds of things, including power tool housings. It seems much more widely used than carbon fibre so maybe conductivity is a possible reason for that?
The resistance for spectrums PA6 GK10, which is one of the glass microsphere filaments has its resistance in its data sheet, the insulation resistance is above 10^12 Ohms and the surface resistance is the same. Spectrum also do a PA6 CS20 FR which is a fire retardant nylon with ceramic spheres (where the CS in the name comes from), it also mentions its surface and insulation resistance but it is only 10^9 Ohms. Spectrums PC-PTFE also claims above 1e12 ohms.

Amazing! Thanks for taking the time to do this.

apply enough voltage anything will conduct, will it effect you in the home shop, I would be shocked to find out

I love how your channel has broad coverage of various interconnected topics.

Nice test, I think it's cool that you decided to do a video like this even tho you didn't expect anything from it. I also have wondered about printed cases for things like the ESP32 blocking the radio wave signals...

As someone who really doesn't know much about the technicality of this video it comes off as extremely nerdy. An extremely deep dive into the unnecessary testing of Carbon Fiber impregnated filament and its relationship with Conductivity...It was pretty great. Thanks for another awesome video.

At work we use 3D printed plastic enclosures before the tooling for moulded production versions is available.
We had a problem where the prototype products were readily failing flash test, which was down to the 3D printed enclosures being conductive.
Doubt it was a carbon fibre filament, but it was a black colour which consistently gave issues. Going back to the supplier, their best guess was if the parts had absorbed moisture? I wondered if it was the use of carbon black in the colour of the filament?
Never did really get to the bottom of it, just learnt that 3D printed components can be conductive and shouldn't be relied upon to insulate in important situations.
We could measure it with a multimeter, didn't need the flash tester at a couple of kV to see the problem, but that was what drew our attention to it. Printed parts a different colour seemed ok.

I love seeing science done outside a traditional lab. Good stuff!

Perfect timing! I just ordered some Extrudr DuraPro ABS explicitly because it is electrically isolating (as per the spec). I assumed that CF filaments would conduct, which is why I even looked at a different filament. Cool!

Thanks for the video. Reminds me of the time I had a very well known company that makes reproduction rubber components for vintage cars make some spark plug boots for an old engine. They arrived, looked beautiful. I assembled some, started the engine, and it ran awful. Misfiring badly. I could hear and see sparks jumping off the new boots. I called the company, and an engineer realized they had unintentionally molded these with a conductive rubber. 🤦‍♂️ I didn't know there was such a thing before this happened. They made new boots from a more appropriate rubber, and all was well.

At first i wasn't to interested/excited about this subject. In the end i did find it very interesting and informative! Thanks again James!

Interesting….appreciate the work to produce this video

This is the exact video I have been searching for! I'm building an automotive under hood fuse box that PA-CF has the best mechanical properties for, but was concerned about the conductivity as the circuits are in direct contact with the material. The only thing that would have made this video better would have been testing pre and post annealing of the samples along with saturation, would probably change the results quite a bit. I think a part 2 is in order!

That was interesting. At least for anything higher voltage, I would have had a gut feeling avoid CF filaments just to be safe. Sometimes a tiny conduction can burn tiny bits of insulator and it may fail in time. I would never have guessed a measurable conduction at low voltage like Brymen!
Yet another video that I learned something from. That seems to be the case practically every time on this channel.

Good job finding the best 2 CF filaments!

Thank You James good stuff

Absolutely Shocking results 😂👍👍

Excellent video! Thank you for the thorough investigation.
If you're feeling particularly adventurous, you could also test corrosion effects from mating CF filled prints to metals. It's a big no-no for CF lay-up parts without insulating well

I would be curious to give the sheets a light sanding on each side just to see what happens

That was interesting. Thanks for the video keep on keeping on.

I like this type of video and this type of response to what I'm sure many tubers feel are annoying comments. It's always good to see someone with a good grasp of the many to one relationshipstthey have so they can see things from the perspective of the millionth person to say something rather than blaming them or feeling bothered.
As for the tests,I really have to wonder if this test really was all that conclusive or if the semi random alignment of the carbon fiber as it was being laid down just gave any given one of those tests some chance of being somewhat conductive.
So I guess it, to me, seems like it's likely that the commenters were right, and to me, sometimes is good enough to not plan designs around a assuming there is no conduction, so good on the commenters and cough for putting this up on TH-cam for people to have any actual evidence to back their intuitions up or correct them.

A really interesting investigation. I personally expected more than 2 filaments to be (barely) conductive.
But most being non-conductive to even high voltage meters, that's surprising to me.
I also didn't know yet that voltage limits max. measurable resistance either.

That was indeed a surprising result. From your previous video I did remember (correctly, I just checked) that there is no direct electrical contact between the printed plastic and the traces on the PCB. The only thing that might have been an issue is the clearance on the larger pads the big screw nuts connect to but putting some clearance on these would have been an easy job.
Years ago I have been talking to FormFutura engineers about the conductivity of their CarbonFil and possibly creating a dissipative filament. They though that since the carbon fiber is embedded in the plastic, they think conductivity - or the lack thereof - is not something they can guarantee.
I think the conductivity may even vary across different badges of the same material, depending on the carbon particles, plastic type and possibly even on slight variations of process parameters during production.

Shop science is completely awesome. Thanks, James!

After the initial breakdown at high voltage - a pathway is carbonised and will stay conductive to a lower voltage after initial breakdown of the insulating polymer between.

Very interesting! Some carbon, like that of a pencil core has varying conductivity depending on the mix of graphite and whatever filler (originally clay, then maybe some polymers). The whole issue revolves around microscopic contacts within the carbon particles, such as graphite flakes. The contact probability is science way beyond my abilities to tackle. All I can imagine is that there is some non-linear or maybe even abrupt limit in the carbon content when the carbon to carbon CHAINS start forming. Keep in mind that just contact between only two carbon particles is not sufficient for overall conduction.
But here comes something from my distant past. I once built a control (or monitoring) system for manufacturing paper insulated phone cables. Paper is quite good insulator, provided it is dry. So the manufacturing process included heating the cable before a lead jacket was extruded over it. That happened in in a vacuum chamber. Rather than just guessing when the cable was dry enough, some measurement was desired. There were two things that I implemented. One was measuring the resistance increase in one ore more wire pairs. The other was measurement of the insulation resistance between some wire pairs. And that is where we made at first a rookie mistake. The wiring between the chamber and the measuring station was PVC insulated, and it was leaking to the tune of some tens or hundreds of megaohms. We had to change the connecting cable to polyethylene type, after which valid measurements of the cable dryness was achieved - several tens of gigaohms. Later on, I have had a Fluke 8060 handheld digital multimeter that had in addition to the usual ohms resistance measurement, also a conductance measurement capability down to nanosiemens levels, which was handy for sorting some 1N4948 diodes for low leakage, to be used in a timer circuit. Even later, I purchased a couple special instruments, a Keithley Electrometer with sub-femtoampere capabilities, and an HP4329A high voltage, high resistance meter, up to 2*10^16 ohms. Both meters were surplus items at flea markets and I have needed them maybe once or twice.

At first i was thinking what a bullshit video but after seeing what you did to prove a point, I am impressed, the time it took to set up everything must have been at least 20 hours plus video editing...
Thanks again for your time.
We learned a few things today...

I am going to guess the length of the chopped carbon fibers is a huge contributor to how/if adjacent layers and walls manage to make contact, and also within the same continuous extrusion as well.

Awesome content nice to see thks for the video..

And that's just DC testing. I would be interested to see a test covering higher frequencies (impedance vs frequency sweep?), capacitive effects etc.

An interesting side note, they are using carbon fiber infused in concrete as an ACTIVE LOAD CELL. This was patented as an automated way to measure potential failure of concrete bearing structures w/o the continuous need for an eyes on site inspection.
Apparently as the concrete undergoes changes in the amount of load it’s under (contraction or expansion) the carbon fibers will undergo a measurable change in their resistance (higher compressed areas lower the resistance [of the carbon fiber in the area] while areas undergoing relaxation or tension will see an increase in resistance). While it wouldn’t do a lot of good to run a seamless run of carbon fiber throughout the concrete structure, placing precast smaller load cells embedded strategically in areas of concern alongside a group done at constant intervals would go a long ways to monitoring the health of aging concrete structures.
The fact that they are able to measure these slight changes in resistance with a high enough degree of accuracy brings renewed interest in utilizing more than just its strength but its electrical properties as well.

20 years ago we were using carbon fiber heaters that were used to evenly heat a 6'x16' polypropylene panel. I also understood that many composite aircraft use carbon fiber on the leading edges of wings for de-icing. Just for kicks' I just took some carbon fiber 2" tape and hooked an ancient pot on it and had the whole 5-foot or so glowing red and pr.producing a fair bit of heat

You touched it!

i wonder if this is less to do about CF and more about what impurities might be in the plastic (perhaps from recycling or just purity of supplies). If true, you might see something like these even on some non-CF filaments. Seems like an awesome science fair project!

What about resistance change vs. applying pressure to the material? This might be our topic for the next video :D :D :D
I always like your videos, keep going James.

Another aspect: nylons particularly, but all plastics to some degree, absorb moisture. I presume these came more or less straight from the printer and have not absorbed any humidity. So as they absorb moisture over time the conductivity will probably go up too.

Loved your video about potential space heaters. As the saying goes, "Jamie want big boom." We'll keep hoping. :) Also, it's spelled, "Burgundy". Take care!

Could be fun to try electroplating the conductive variants.

There are static dissipating filaments. I have printed some parts form 3DXSTAT ESD PET. I could not get the finish print to show conductive on my basic meter. The customer had more specialized equipment to test it. He said it was would conduct and dissipate static. He was pleased.

Good experiment. Another factor's going to be humidity and how the material absorbs moisture, especially nylon, again probably only an issue at high voltages.

..this is a bit more effort than you normally put into trolling trolls. I approve!

You weren't kidding when you answered that you had tested it!

Interesting to see if you could make resisters with this

I would expect the Bryman to use a constant current source for measuring resistance. That provides voltage directly proportional to current.
VOMs and VTVMs used constant voltage sources, why is why they have non linear scales with zero at the fat right.

Now, that was surprising! I actually thought that most blocks will somewhat conduct when measured with megger.

The aircraft industry had concerns about carbon fibre and lightning. The concern is more the resistance causing heating and explosion of the material. That is at the other end of the spectrum. I think the problem with CF in aircraft was solved by including copper wire in the buildup.

Well now I have to take this knowledge and apply it to nickel plating 3D parts. If I raise the voltage enough to make up for the resistance, I should be able to have it start plating. As it starts pointing the conductivity will go up and I'll just have to put a current limit on it... But that means I should be able to grow plating onto the plastic parts directly

I was at the South East Electric Funfly when Carbon fiber DLG tangled with the power lines. The glider lost. It took down power for half the event site. There is a video from a drone that happened to be pointed in the right direction. The glider flat out exploded.
Ken

Great test ! Now, what about RF at low and high voltage ?? And, how about a nuke-ro-wave test... To see if the material changes properties ??
Thanks, this was really good info !!

8:25 Wait, James has a dozen 3D printers?!? Should we start a Go fund me to pay for some counseling?

would i use CF filament for a 40kv plug? no, would i use it for a project with wireless connectivity? probably not, something i would need to test
would i use it for 60v? yes, without concern

I think this may also be affected by how the object is sliced, as well as just randomness. My guess is that you got conductivity when the printer happened to deposit a single fiber across the test points.

Can’t certain plastics absorb and hold moisture? Thanks for taking the time to make and share these videos.

Pretty thorough. However, I am printing parts for Tesla coils these days, and having some CF PA in storage, I am just drooling at it, but at 15kV primary, or 300-400kV secondary, it would not be very wise to use it. Regardless of how much they would conduct at 1000V, or less...

I wonder if moisture absorption affects the nylon. Maybe retesting after drying?

Interesting results. Will use them in my materials class ... great, systematic approach - was a pleasure to watch!

Hi James,
Plastic are prone to absorb moisture from air, what about shelf duration of filament ? It's also worth noting that the two type of plastic that conduct electricity are Polyamid !? Thank you for your videos learn a lot.
Geeting from france

I got the bambulab CF filaments because I wanted to print ESD safe boxes for my components. But was disappointed in that I could not measure any conductivity at all. I then bought Fiberlogy ESD-PETG-Filament which turns out to have easily measured resistance. Just sad that it is very expensive.

Good to know 👍👍😎👍👍

If any of you haven't seen it look up a Video Kerry Wong did a few years ago testing PLA with EHV as an insulator.

Need to try with 110 and 240 ac house current.

Would be interesting to try with ESD filaments, which are deliberately designed to be conductive.

Excellent and informative test! Thank you so much. I am however wondering if some of the apparently non-conductive materials might break down and conduct or arc at higher dielectric voltages and currents? I've worked quite a bit with high-voltage switchgear underground cables and insulators and have observed that might be effective insulators at low to medium voltages (medium being 5kv and below) would breakdown at higher dielectric potential voltage. Higher currents also seem to effective dielectric insulator breakdown.
Arching might be another potential issue, as the the carbon-fiber might be more susceptible to arcing carbon tracks which could lead to permanent arcing.
Be interesting to see how these materials hold up to a Hi Potential 'Hi-Pot' tester, or something like a 10,000volt neon sign transformer with terminals set within and beyond the arc gap, and see if the arc tends to be drawn to the material.

Curve tracer or SMU? That is, it would be nice to see an I/V characteristic curve, even if you have to fake it, stepwise. Be safe! Like a curve tracer, probably best to use AC and not DC.

It’s interesting that both conductors were PA variants. I wonder if it’s not as good an insulator as some of the other matrix polymers?

I wonder if the moisture content of the Prusament is contributing to the conductivity??

I recon the conductivity of some of these is 1 of 2 (or even both) things.
At higher voltages the resistance of the plastic breaks down and might create a path of "altered" plastic that is now conductive.
Or (and/or) the carbon fibers randomly line up in a print so you have a continous path from stud to fiber to fiber, etc, to stud.
Now I have to admit the first example of pathing usually happens only "well" above 1kv, hence almost all domestic/lv industrial installation goods, tools, ppe being rated up to 1kv.
Thus I suspect the conductivity you saw where the fibers in allignment. But that is a suspicion on my end based on observation not measurable facts.

I know this is going to sound incredibly specific. But one day you are going to take us on the ride to reverseengineering the Firmware of an odd shoptool to extend its functionality because one of its behaviours is driving you nuts.
I am already thrilled for that day.

I'd like to make some linear potentiometers as an integral function of 3d printered components. What would be a good filament to print these parts?

I'd love to see a sample of a static dissapative filament as a 'control'. I actually have a roll if you want to open source your test designs

Is there any chance this is related to moisture in the material? Could you dunk all the samples in a bucket for a while and see if they all then conduct? If yes can you repro the same with non CF materials?
Perhaps the CF granules just get you to the point of nearly conducting and then various little differences just take you over the edge? Size of granule, moisture, something else?

I'd bet you'd see interesting effects if you tested at higher frequencies. I'm guessing some of the conductivity is dependent on fibers randomly touching within the material, as the frequency increases small gaps will act as capacitors and it'll likely turn conductive more easily. As I'm sure James knows, Ohm's law is only V=IR at DC, in general it's V=IZ, where Z is the complex impedance R+jX. None of the testers shown here can measure at particularly high frequencies.

Chopped CF plasticis in the same space as CF resin composite it doesn't exhibit meaningful conductivity in a macro scale to be useful but in a micro scale it is conductive enough to mess with RF signals.

It’s almost like when you chop up a conductive material and surround it’s random orientation in an insulating material it isn’t likely to make a circuit; Is it ideal, no. Will it likely work fine, probably depending on use case.

I think what you're seeing is by random chance enough carbon fibers are in close enough proximity to conduct. I imagine if you printed enough samples of each filament you would get some that fail with every brand since the arrangement of the fibers within each layer are random. The lower the fill percentage of carbon fiber the less likely this will happen but probably still possible.

I wonder if the Prusament would have shown surface conductivity if the surface was roughed up with an abrasive, but I guess that wouldn't really be the surface anymore.

Did the results correlate to the percent CF content (where available)?

On the bright side: you now have options in case you need a filament for a static discharge safe object. Probably.

Now I wonder if the conductivity implies those filaments are significantly stronger or more rigid than the rest.

Would be interested in how they perform with RF. Could yiu put some in a microwave and see if the heat up? Cheers

In conducting, there is resistance. Where there is resistance there will be heat.
Heat + PLA = Melt
Even if it is possible, I don't think it would be a good idea for long term use.

Yes, I am a nerd, and I did enjoy this video!

I would presume that 3d printed Cf Would have the fibers more or less parallel to the axis of extrusion. So surface conductivity may be lower than bulk conductivity.

Also remember as an apprentice using the Megger to test the skin resistance of other unsuspecting apprentices :)

I can tell you that the 30% carbon filled nylon we used to use for backup rings had significant conductivity. Now it was filled with graphite, not carbon fiber but it shouldn't matter.

Did you take down the ebike review video ? It seems to have disappeared from my watch later queue and I can't find it on your videos list.

Very interesting, though at this point I would probably not trust myself to use any carbon fiber fillament for electronic projects until I know the exact reason why and when it becomes conductive, even if it tested fine previously. Especially the case where the surface tester didn't show anything and later did under slightly different circumstances (usually I get better results with surface testing compared to probing). That would erode my trust into any kind of carbon fillament entirely, because even if it didn't test like that previously, who knows what parameters would make it conductive later on.

I wonder if the phenomenon only happened with nylon due to its hygroscopic qualities. I'm no material scientist or anything near that, but I wonder if a combination of absorbed moisture in the plastic and the carbon fiber threads could have caused better continuity than the other polymers with much lower hygroscopic qualities.

Perhaps glass fiber filled nylon would be better for electronics?

likely had one random strand of carbon making it from one hole to the next
I figure under 30-40% fill, all the fiber will generally be insulated by the surrounding material, all of which has a high dielectric

I think that it (maybe) depends on the percentage of carbon fiber in the filament. Some filament may be very poor in CF ! (fake?)

i would be curious to know the resistivity of the materials without carbon fiber...

I've never seen two multimeters kiss before

You were really responsive. So glad you took the test! I had a reservation about carbon fiber and I see that my intuition was correct. Thank you for the test. ABS would perhaps have been safer even if at the voltage used there is little risk.

Paging StyroPyro to figure out how much those voltages need to be.