I think it could be interesting to see how the number of perimeters around the hole and the type of infill (geometry and density) affects the strength of the insert (using CNC kitchen ones for example)

@timkussmaul1222

4 ай бұрын

true or one print with 100% infill

@k3g

4 ай бұрын

I did something like this on my printer, but ran a battery two tests: number of perimeters, and diameter of the hole. I incremented the hole in .05mm increments and tested about 20 options, but I didn't have a fancy torque setup so it was all eyeball and hand-feel. Once I did that I was able to save custom hole profiles into my cad tool to make those custom holes.

@Sembazuru

4 ай бұрын

I was thinking similar thoughts about increased perimeters and/or increased infill density. My spin on this would be to use cylindrical modifiers around the hole to apply the perimeters and/or infill density localized to the hole instead of on the full print (that presumably doesn't need the extra plastic).

@kvirreful

4 ай бұрын

I second that. Voron settings for their printed parts are 5 or 6 perimeters. Likely to increase the hold of inserts

@meikgeik

4 ай бұрын

It's crazy to me he didn't go with higher infill and more perimeters. I always beef that stuff up anywhere I'm using inserts. Also, it looks like his prints had poor bonding of the top infill layers to the hole perimeters. I have a less "pretty" tuning setting that really overfills that to make sure my hole perimeters are bonded to infill everywhere possible.

Surprised you didn't try nut pockets (what prusa does with their printer parts). That creates a nice solid wall that isn't distorted by brass teeth. I typically use wood screws if it's a one time use, and the inserts if it's a part that may need dis-assembly (also looks more professional). In injection molding it's exactly the same, if it's a one time assembly then self-tapping, if it needs to be serviceable there better be inserts included.

@CDRaff

4 ай бұрын

This is my exact design philosophy. If it's going together once it's self tapping(even machine screws self-tap in plastic well if the tolerances are low enough) and if it's going to be taken apart multiple times it's getting threaded inserts.

@Kycirion

4 ай бұрын

I design most of my prints with a nut pocket. then I will stop the print in the slicer, insert nut, and continue print. this allows me to use a lot of off-the-shelf hardware store nuts and bolts without having to buy more expensive specialty hardware. But I'm also not printing high volume, so it's easy for me.

@Zombull73

4 ай бұрын

That'd certainly be stronger threads, but it seems like that would just make the plastic fail faster since there's even less of it at that point.

@kenengel620

4 ай бұрын

Lol. Nut pockets.

@garagecedric

4 ай бұрын

Nut pockets are great, and if you design it well you can have lots of plastic between the nut and flange to make it very strong.

Flip the camera inserts to the other side of the printed piece. That way you have a larger flange you are pulling against the print. Essentially acting as a larger backup washer.

@JohnDoe-fk6id

4 ай бұрын

Also, doing the same thing with the heat-set inserts. Pull them THROUGH to the far side, rather than pulling them OUT of the side that they were pushed into.

@kurtlindner

4 ай бұрын

Also, there's the possible benefit of the recess used for tightening the insert mating with the plastic and preventing twist out when tightening and loosing the bolt.

@thingswelike

4 ай бұрын

But if you can access the rear, you'd just put a nut pocket in there generally.

@iandonkin6762

4 ай бұрын

My thoughts too!

@JohnDoe-fk6id

4 ай бұрын

@@thingswelike a heat set insert will fit in places where a nut pocket can't

Friendly tip - for anything starting at M4+, I am not using inserts for plastic, but inserts for wood. They have larger diameter of the metal part. And I am heating them up and screwing them to the plastic - significantly increasing the contact area. Works much better. And the best part - you can then screw in the bolt from the other side, make the insert invisible and even stronger :)

@isaak3001

4 ай бұрын

That is a realy good idea. I will try that out the next time :)

@markwebcraft

4 ай бұрын

I definitely want to see this idea tried in the next video. Great idea

Test it with a regular hex nut countersink in a hexagon hole from the back on the part or a square hole in side the part and push the nut in from the side. I do this all the time and it works perfect and does not require any special nuts.

@lynxtacticalgear

4 ай бұрын

This was exactly what I meant with my comment, but better writen :)

@SixTough

4 ай бұрын

Yes this is the standard (and correct) way of doing it, unless you want to save weight.

@daliasprints9798

4 ай бұрын

This. It's so much stronger than heat inserts that can pull out or strip the hole and spin, and uses dirt cheap off the shelf parts.

@jexom

4 ай бұрын

@@daliasprints9798 well you can use the heated inserts from the back side too but yeah those could potentially still strip the plastic

@gamingSlasher

4 ай бұрын

Was surprised he didnt do that when he was showing a nut in the beginning.

Just a FYI, spiral fluted taps are much better suited to tapping plastics and soft materials like aluminum as they evacuate the chips while tapping.

@originalmianos

4 ай бұрын

The use of those traditional taps may be why his simple thread an m2.5 hole.did not work. I have a spiral tap and, as long as I have a few extra wall layers, find it works perfectly every time. The only thing I would like to find is a way to simply set extra walls on holes only without a lot of fiddling.

@thephlophers

4 ай бұрын

Ah yes, I was a bit surprised that tapped holes worked so poorly considering how often I use it for non load bearing parts. My taps are also spiral fluted, and I don't power tap them so that is probably why I have better luck with it. I wouldn't necessarily recommend it, most of the time I do use a captive nut or insert. But it isn't that bad.

@SixTough

4 ай бұрын

Cool didn't know that

@z6t6z6d

4 ай бұрын

Single-cut taps are the choice when using machines for manufacturing. They require a higher torque because they finish the thread in one pass. They are also more sensitive to torque peaks that occur when cutting a thread by hand with a tap wrench. In this case, a tap set consisting of a pre-cutter, center cutter and finish cutter is used.

@herrgerd1684

4 ай бұрын

Exactly! Plus use a super sharp tap which you only use on plastic parts and not on metal parts ..

LOVED the Blondihacks "Yahtzee" nod with the lathe part-off 😂

Perhaps consider printing a 100% infill 'doughnut' of say 10mm around each insert/tap/thread point to eliminate some of the variability caused by your part flex and infill interface, along with using an omnidirectional infill like Gyroid. It would improve pull-to-pull consistency and more accurately demonstrate the ultimate/average strength of each method.

@theheadone

4 ай бұрын

This is exactly what I do. In the slicer add a cylinder modifier with 100% infill (usually just larger than the diameter of a standard washer you would use for that fastener. I've had no issues with part failures for my applications going this route. I make a lot of sensor mounts so there isn't generally a lot of dynamic forces on them, mainly just static loads.

I typically use self-tapping 3mm screws in 2mm holes with no printed thread. Even for parts that need occasional disassembly and re-assembly they work great. And let's not forget that lots of injection molded cases do the same thing. And in my experience PLA parts survive unscrewing and rescrewing better than the industrially produced ABS parts. As I'm writing this I'm printing 3.5" to 5.25" mounting adapters that I designed today (because the ones on Thingiverse are all just imitations of mass produced parts and these designs work poorly for 3D printing) and the means of fastening the adapter to the PC case is by means of 3mm self-tapping screws. I always use the longest screws that will fit.

@MortenGuldager

4 ай бұрын

yeah, self tapping screws: fast, easy, cheap and often plenty strong. If strength is a question, bolt and nuts. I only rarely print things that I plan to take apart multiple times.

@korjaa

4 ай бұрын

I skip the self-tapping part and just use regular M3 machine screws and force them on the hole. Power tools will melt the plastic, but if hand tightened, they usually work just fine. "Just fine" as in the level that I never opened the insert box I ordered a year ago.

@bogusF

4 ай бұрын

This is the way. Although I design my holes to be 2.5mm for m3 screws. I very rarely have problems with this kind of self-tap and it's always self-inflicted harm. ( i.e. impatient assembly, bad design, faulty print, etc)

@kjgfalsk

4 ай бұрын

@@bogusF and also if the hole got to small, a 2.5 drill by hand and all ist good^^

@marcobassini3576

4 ай бұрын

I too use regular M2, M2.5, M3 and M4 screws as self tapping screws (by hand). I print a hole smaller than nominal and using a separate slicer modifier solid (prepared in CAD), I add a 2mm thick ring of plastic (perimeters) just around the holes to be later tapped by the screw. If you use long screws as shafts (sticking out of the part) this method will effortlessly give you perfectly straight (perpendicular to surface) shafts. A thing almost impossible to achieve with inserts (that are impossible to sink in perfectly perpendicular to the surface). And you can screw and unscrews many times without ruining the tapped hole. I do not use inserts anymore for pieces not intended to be screwed/unscrewed repeatedly. I use PETG.

Would be more interesting to test screws made for screwing into plastic, like "plastite" instead of screwing ISO screws directly into plastic. Right tool for the right job!

@shonkydonkey

4 ай бұрын

This is the best way in my experience. They are also called trilobular or trilobe thread forming screws for plastic.

@elvinhaak

4 ай бұрын

Yes, they work quite well too in my testing. Also things like 'helicoils' do a good job to just add extra strenght.

@jayliu496

4 ай бұрын

screws for wood work as well. nothing is cheaper than drywall screws too

@802Garage

4 ай бұрын

@@shonkydonkeyThey actually use them a lot on cars. Both on plastic and metal parts. I think so they clear any paint or debris out of threads on the way in. You can usually tell because they will have a small slit in the thread on 3 sides. Sometimes the tips are also slimmer than the threads or look slightly triangular.

@ismaelyu5

4 ай бұрын

support this, but the difference is the reuse ability of such threads as the plastic weakens every time you reinstall the screw. The question is how often can you do this with the same load.

Love the machining work and the Quinn reference, yahtzee! Would like to see your mill and lathe setups more!

I usually embed nuts inside the print by modeling a cavity and pausing the print at the top layer of the cavity. Nuts are usually a lot easier to find for a particular size than threaded inserts, and more broadly useful. If you need even more strength, modeling in space for a steel washer between the nut and the inside wall of the part increases the engagement with the plastic part by quite a bit.

@RonnieTheFinBear

3 ай бұрын

That's an absolutely brilliant idea, thank you for the tip!

@fatroberto3012

2 ай бұрын

Since you have no need to use a spanner, you could use square nuts, which have a bigger area (and a simpler cavity shape).

@auxchar

2 ай бұрын

@@fatroberto3012 True, but hexagonal nuts tend to be more readily available, especially when compared to threaded inserts.

In my experience the screws for wood work much better. The hole in the printed part should be a bit bigger than the core and since these screws have a very deep and sharp thread, they usually connect very nicely with the part. The failure point is typically the connection between the printed hole and the rest of the part. For tapping the thread into PLA i found that a decent lubrication makes the process almost perfect. I typically use some grease since it does not flow away unlike oil. By the way adding a little of grease on woodscrews eases the joint process a lot. Cheers

@fred-9929

4 ай бұрын

Wood screws are often conical, and can crack the plastic parts. Better use screws specific for plastic.

@gasfiltered

4 ай бұрын

​@@fred-9929this can be true, but straight-shank wood screws are far easier to find in your local hardware store and orders of magnitude cheaper than ordering a small quantity of plastic -specific screws. If you size the hole 1% larger than the nominal minor diameter of a wood screw it wont be any more prone to crack.

@SeanBZA

4 ай бұрын

@@fred-9929 Drywall screws are available in fine and coarse thread. Fine thread works well, and is even self drilling in thin steel with the good quality ones, and I have used them a lot that way, even on steel a lot thicker than the thin steel used in drywall work, like steel tubing with 1.2mm wall thickness. The coarse ones, or those designed for composite wood, are very good, and almost always stronger than the substrate, but are generally not going to self drill in anything other than composite board, or through 0.6mm steel plate..

A handy tip for increasing the number of perimeters around just a hole: You can put an infinitesimally thin annular gap spaced out a few perimeters lines from the ID of the hole. This will force the slicer to an extra set of perimeter lines around the hole without having the increase the number of perimeters everywhere. I'll actually put these phantom gaps anywhere I need to add solid perimeter lines in an area that would otherwise just be infill.

@Garoninja

4 ай бұрын

Ill have to remember this one. Could have used this trick the other day

@diedtrying

4 ай бұрын

Nice tip - learning to make the printer do what you want is so important in this craft.

@SixTough

4 ай бұрын

Annular gap? Like cutting a circle into the existing hole with ~0 height?

@lobocnc

4 ай бұрын

@@SixTough More like a cylindrical gap of, say, 0.001mm wall thickness but the height of your screw. The radius of the cylindrical gap should be larger than the original screw hole size by several (4 - 6) line widths.

@severpop8699

4 ай бұрын

@@SixTough nope, ctting a 0.0001 wall thick cilynder around the hole full depth, or maybe two concentric at 1 mm distance from eachother (assuming you print 0.4 mm wide layers), that forces the slicer to put 3 walls around the hole, another 3 around the first gap and another 3 around the second gap, but the gaps being so narrow the walls for each circle will melt into ecother giving you a 9 walls print.

I'd be really interested in seeing the results of different infills as the failure mode was always to rip the connecting walls, I think that'd be much more useful for figuring out how to get the strongest output for each usage case!

Did you test torque-out at all? Because that pull-out test is honestly almost entirely pointless as that is just not the way you use them in, dare I say it, almost any case.

For the past 5-6 years I’ve just self-tapped into a tighter printed hole and had excellent results that way. Yes, occasionally I’ll use a nut on the back and once or twice inserts but for 90% of the loads I put my prints through (including my CNC machine), the self-tapped printed holes seems just fine.

@BelowAboveAverage

3 ай бұрын

Same, and I have hundreds of products (modified, industrial card printers) out in the wild assembled like this and not a single fastner (mostly M3) failure.

@claudiuionescu3362

2 ай бұрын

Hear hear! Same here. This video seem more like a hidden commercial

My favorite is the wood thread insert with spikes on a flat washer on the back of the part. Also always add some extra walls around the thread and it won’t pull out but generally I’d print a section of 100% infill there anyways. If you can get 4x diameter on the hole depth, printed threads chased with a forming tap are wicked strong. And like others said, burying a nut in the print in some way is always a super good option. If the nut is near an edge, you can add a keyhole slot on the side to slip the nut in and then screw through the front. I had to make a super tricky assembly once and used a thick 3mm washer tapped for an m4 bolt and slipped it in through a side slot that got plugged with epoxy to hold the threaded washer and plug in.

Thanks for the time and efford to test this for us!

Yes! i've been waiting for more videos on this subject. Thanks Thomas

In combat robots, we all use plastite screws. They have triangular lobe coarse threads. You just screw them into the plastic, no tapping required. A common failure mode we see are heat set inserts pulling out, but the plastite screws fare much better. We also tend to use a lot of walls since we’re printing for strength. Usually 3mm walls or more. Plastites are also lighter than inserts.

First year Uni manufacturing here in Australia taught me that a bolt has a un-threaded shank portion where as a machine screw (not a wood screw) is threaded all the way to the head. Love the testing videos, keep up the great work.

@GrubbyZebra

4 ай бұрын

Actually, the only difference between a screw and a bolt is what you call them. They are literally the same type of fastener. Don't get too caught up on the name.

@jetah50

4 ай бұрын

@@GrubbyZebra It seems there's a difference in naming/function when engineering something vs home building.

@GrubbyZebra

4 ай бұрын

@jetah50 the problem is that any supposed difference is easily disproven. Bolts have a smooth section? Fully-threaded bolts (often called "tap bolts") are a thing and are commonly used to attach automotive body panels. Bolts used with nuts? Lycoming cylinder bolts are installed into tapped holes in the crankcase. Screws are only designed for tension and torsion loads? Nylon shear screws are commonly used to attach model rocket nose cones to the rocket body in order to prevent unplanned separation. And I could keep going.

@khanayudash2475

3 ай бұрын

As someone who sells these for a living and deals with technical documents constantly, the terms are 100% interchangeable. @@jetah50

@AcrimoniousMirth

3 ай бұрын

The only difference I’ve been taught and that seems to consistently stick is that bolts mate with a tapped thread whereas screws cut their own. Machine screws simply have a tooth profile capable of carving into the metal/plastic. Wood screws cut their thread into wood but I don’t think I’ve ever seen a wood bolt, because the material being held doesn’t matter to a bolt, as it knows it has a matching tapped thread to fasten with. A screw on the other hand needs a different profile, pitch, taper etc depending on the material it’s self-tapping into.

I like to use “alternate extra walls” and “connect infill lines” to really boost the strength of printed parts. The perimeters become interlaced with the infill structure and resists pullout and deformation. I use grid for faster prints but prefer gyroidal for strength in all directions or for parts susceptible to warping.

@802Garage

4 ай бұрын

I would think bicubic is better for overall strength than gyroidal, no?

awesome video, we got printing, machining, a great ad spot and knowledge, thanks Tom!

I personally think, the Torqueout Test won't give completely comparable results, because of different coefficients of friction (galvanized steel bolt - PLA/brass/Nickel plated brass). A pullout test would give indefent results, sadly requires a test machine. But I think the "ranking" would be quite similar. I tend to use woodscrews for simple "once" connections, Bolts in printed threads if the simple connection needs to be a bolt for other design reasons. Sometimes printing only the first few millimeters and let the Bolt cut the rest by itself (friction stops unwanted rotations). Heat inserts only when I need wear resistance, if even more is needed Ensat-Gewindeeinsätze. Really strong threads I get by designing in massively longer threading depth or a nut placed inside during the print.

@martijngeel9224

4 ай бұрын

Fortunately, I'm not the only one who sees that this test is worthless. Twisting force is measured here, not pulling force. It's nice that the coefficient of friction between the different materials is measured here, but that is of no use to us. With a drop of oil on the thread it suddenly becomes a bad result. And a bad thread becomes a good result.

Please also test the strength of self tapping screws. The "threads" of those, are spread over several layers, and seams to make a quite strong bond. It's a way quicker solution to use, that I have had good succes with.

Fascinating! And the thread adapters are an eye-opening option.

Two ideas I have are creating a wide ring in the middle of the screw hole that acts like an anchor in the shape of a washer. Or creating a recessed area on the backside to actually install something like a fender washer to spread the load out if you really need the strength.

Few other types of threaded inserts: "thin wall threaded insert" and "helicoil" both would be interesting to have in the comparison. As another comment mentioned, would be interesting to know print settings and do a review on things to improve the joint. I would also love to see how using a "matching" grade of screw would affect the strength of joint (i.e plastic screws). Ace video as always Tom, loving the new clean feel of the production.👍

@SeanBZA

4 ай бұрын

Thin wall inserts will be about the same as going up a size on the bolt, but the hole will last a lot more insert remove cycles. Probably best is any of the inserts, and make the wall of the hole a full fill to double the diameter, which will allow better transfer of stress to the bulk media. As most of the failures come at the join of the insert plus fill to the bulk void space, a better bet is more material there, either denser for a 2 diameter volume, or better infill that uses more filament, but at least handles load better.

Great video 👍 something that people don't often talk or think about is that in many cases threaded inserts aren't necessarily "stronger" than direct threading...but in applications where you need to often remove a threaded fastener (eg. a thumbscrew) they are a must (for example helicoils in aluminum).

@larrybud

4 ай бұрын

Exactly. "Strength" is the wrong question which is being asked. If you need strength, you need to bond the plastic together permanently.

@circuitguy9750

4 ай бұрын

This should be upvoted to the top! The helicoil example @emberprototypes gave is fairly common knowledge / industrial practice. Aluminum is too soft for repeatedly bolted/unbolted joints. They mentioned "often" but more realistically even one removal and reinstallation is too many - bolts into aluminum is often a one-and-done thing and unreliable to remove and re-bolt. The helicoil at its simplest form is just a tiny steel thread to increase the wear resistance right at the joint interface. This is doubly true for plastic.

@nevilenobody606

4 ай бұрын

Absolutely correct. You use an insert if you are constantly removing the part otherwise the plastic will just wear away.

This video needed to be made, thank you. Please test nut captures and the strength of inserts from the opposite side. Tapping holes with a hand drill is something I never do regardless of material as while it takes a little longer I find that doing it by hand results is less damage to the threads especially for fine pitch threads.

I switched from stocking machine screws to self tapping plastic-threading screws a little while ago and have had a fantastic time with them! Most of my parts aren't particularly load-bearing, but need to be held together... They're just so simple to add to a design!

I would love for you to test the direction of pulling out, AFAIK, Voron parts sometimes have you thread in the direction of installation and sometimes opposite. Taking your thread adapter into consideration, the large flange on the end would take a LOT of force to pull out in the opposite side of the install. Also it would be nice to know how much the different techniques of linking the perimeters to the infill would work! Great video!

@kymlalu

4 ай бұрын

Also they sometimes put inserts in a way that the other part will made contact with insert ( all force will be on metal ) and plastic part where insert is will be on that insert.

excellent video, love the threaded holes made with layers

This was super interesting! And shows that there are different options based on the use case

I prefer cut threads for everything below m6. I use 3d printing mainly to prototype parts that eventually get machined. 99% of the time some cheap PLA is sufficient for my needs. usually I print with 3-5 perimeters. I usually use alcohol as cutting fluid. few drops of cutting oil dissolved in the alcohol works even better. also aluminium taps work way better then normal ones (the ones that have every other tooth missing to reduce friction) through hole whenever possible, bottoming taps that push the swarf up only when really necessary. ...in 3d printing I can make the hole super deep or all the way through the part even if I'm not going to do that on the machined part for obvious reasons. a final note: for embedded nuts: get some square ones - they work better in every regard I can think of compared to hex nuts when it comes to incorporating them into 3d prints. (don't rotate as easy, easier to design the pocket/slot, usually better bridging if pocket has to be upside down...)

@haydenc2742

4 ай бұрын

Yeah, I bet hand tapping vs power tapping would reduce the friction and heat generation of the tap in the plastic...thus preventing the ripping of the threads out of the part However hand tapping a buncha holes suuuuuuuck I wonder if a better lubricant such as silicon grease would work better than denatured alcohol (I use Danco food grade silicon grease from lowes on my parts and bearings on my 3d printers/cnc machines, not only is it slick as greased owl crap...but it doesn't attract dust like oils and "dino" grease)

@elvinhaak

4 ай бұрын

Another way is to use a good tap-holder instead of putting a tap in the drillhead ... I use a small adapter that I made in 5 minutes. @@haydenc2742

@bernhard_derProtoTyp

4 ай бұрын

I use a tapping arm. For my cordless drill to tap. Having the tap straight also reduces the friction quite a bit compared to just cordless drill. Alcohole does some minor lubrication but is great at cooling.

What about wood screws? They are made to hold on to the wood fibers that are weaker than metal. They are also very cheap

@Divenity

4 ай бұрын

My thoughts exactly.

For extremely small screws (M2, M2.5, M3) I tend to just screw directly into an oversized printed hole; basically the tapping method, but skipping the tapping step. I get fine results, but I'm also never designing parts for strain, just assembly.

@MadeWithLayers I could watch you 'make chips' all day! So glad you finally have a workshop you deserve. Can't wait for more chips to come!

Super interesting. Personnaly I usually extrude the shape of the nut from the other side of the part. thats my prefered solution as you often get the nut provided with the bolt, you dont have to buy plenty of insert or spend the time inserting them. Maybe you can do an addon video and compare to these results to this method, that would interest me a lot. Thanks !

@AwesomeSaussage

4 ай бұрын

That's what I thought too! 👍🏼

This is a valuable contribution to 3D print engineering, Tom!

Thomas, in tru holes you are blessed with having the possibility of using the insert from the backside of your workpiece. which creates the fact you have to pull the insert not only out but also tru the complete printing. And a bit of a hassle but you can also demonstrate the "print in place" possibility, if someone might be interested. possible with an ordinary nut.

I mostly use the modeled threads, but if I need the strength I will use a normal nut pressed in the back of the part. Where I think the inserts shine is with parts that need to be disassembled many times. The modeled threads are only good for a couple assembly cycles and a nut can sometimes get out of place if the press fit is not great.

You should be able to test for lead content of the Alibaba inserts using a swipe test. These are marketed for use in testing house paint and toys, but would work for this purpose too.

@jaro6985

4 ай бұрын

Most brass is leaded brass (2-3%), its not really an issue unless you: use it for a childs toy, use it for food storage, or grind it after the fact. You shouldn't be using 3D prints for these purposes anyway.

@tin2001

4 ай бұрын

​@@jaro6985 Oh. So you're saying I shouldn't 3D print a children's toy lunchbox with brass shavings on it for decoration?

@richdobbs6595

4 ай бұрын

@@jaro6985 My point was focused on whether you should buy CNC Kitchen's brass inserts because of being lead free brass. Or alternatively, since there is a lot of plumbing fixtures that are in-fact lead free, is it possible to get cheap inserts that are still lead free. And I'm sorry, but using 3d printing for toys is a pretty standard use case.

@jaro6985

4 ай бұрын

@@richdobbs6595 3D printing toys for young children is just as unsafe as using leaded inserts, most people do not have food grade setups. I'm telling you all china inserts should have lead in them, so no need to test.

@Ender_Wiggin

4 ай бұрын

Lead free bass literally means only 2% lead. This is also true for lead free brass that is used in water supplies. Lead free is a legal term not a normal english understanding. It is very misleading.

you are washing your hands too much with harsh alcohol hand sanitizer ? you need to moisturize !

i tap ASA all the time. holds great. great vid, thanks

thx for the test

I am just saying this before watching... I print all my threads on my designs and don't have an issue, so I am very interested in the results. EDIT: now having watched it I can see how the inserts would have a benefit but unless there is a need for more strength I'll stock with printed

Yea, dont power tap plastic dude. Especially fine threads. This is the second video of this channel I've seen today where your process is severely flawed because you have no idea what you're doing. How about doing some research first. Blind leading the blind.

I would like to see different materials used such as nylon and abs, however you did a wonderful job with this video keep up the fantastic work.

Tom, I doubt you'll even see this but, we need a machining channel from you. I also see you for your blondiehacks reference! Been watching for a decade or so. I can't thank you enough for the knowledge you've shared.

For the love of god please moisture your hands 🫣🥲

A few things spring to mind here: 1) If the limiting factor is the perimeters around the hole, beefing that up to the point where the insert turns in or pulls out seems necessary to get meaningful test data on the insert or thread. 2) I don't advise tapping under power for this sort of thing - use a manual hand-operated tap wrench. It'll keep the heat down and you'll be able to feel what you're doing. I've actually used threaded inserts and stainless machine screws to replace self tappers on bits of plastic under-bonnet trim on my car - they are a huge improvement! 19 years of taking those old self-tappers in and out doing maintenance and they didn't really tighten up properly anymore. A great quality of life modification.

The vast majority of installation torque (80-90% in steel nuts and bolts) goes into overcoming friction so it's not a good way of measuring pull out force. Once installed the assembly strength is determined by bearing and pullout strengths, not twisting of the insert.

Large diameter steel washers can spread the load over a wider area of the plastic when used in conjunction with a steel not. A thread for the screw can be included in the hole so that a lockout effect can be achieved with the steel nut.

I have had good luck with the injection mold inserts with resin prints for my drone. Even experimented with camera threads printed directly into the resin. Surprisingly it worked out very well.

Thumbs up for the machining montage!

for low stress/torque, for M3-5, makign the thread directly with the screw, works, it will heat up due to friction, but it will work. That's how i mounted a adaptor plate for a shifter in my sim rig

"Should I test ... or ... or ... or ... or ..." Yes 😁 Very interesting test, and great presentation!

Wonderfull sunday morning, waking up with science, especially with your and @cnckitchen work, I'm a huge fan. Regarding your questions, I do use another option due to design/thicknesses of the part compromise. I either leave an insert space for a nut or a vertical hole to hide the nut inside the part. This keeps the part thin and strong because the nut itself is the thinner I could get while not compromising the strength (usually speaking of M3/M2). Also, I use more infill, more walls, and ASA.

Thanks for another great test. This was basically already the conclusion that I have come to over the years. If I only ever intend to screw something together once, I may just size the hole so the screw bites in and cuts threads, or use a nut. Same for quick one-off prototypes. However anything I intend to unscrew or use multiple times, gets inserts. I made myself a custom profile in openscad for the inserts that I use so that the hole is a little wider where the insert goes, so that a little less plastic is pushed down but there is still plenty to melt around the brass and make a tight hold.

I printed some tool heads for my Dillon 650 Reloading Press. I did it just for low-stress depriming only, so very light loads. I dabbled with printing threads, but what worked best was printing 20 walls in the holes, and running a 7/8-14 tap through the holes. Yes, it was messy, but it worked, and continues to work.

Thank you for putting in the research work! Since you asked what to check next: Self-tapping screws, wood screws, inserting nuts, use of washers (larger area might not pull out as easily?), using the inserts from the other side (pulling through the entire part instead of pulling them back out where they inserted) and of course more walls / more infill / both...

My favorite part about your videos is building the test setups.

I see you teased the rivnuts. I've been using rivnuts as inserts for a while. I design for them to be inserted from the back side so that the flange can act as an anchor. The resulting connection is more robust than typical inserts.

Please test with 100% infill

I once tapped E-SUN cf-nylon and was amazed by how well it worked. It almost felt like tapping aluminum the way the chips came out!

I have threaded inserts (somewhere) & have never used them. Screwing into the bare holes in the print has worked just fine.

When I played with this situation (using PETG) I found that unless you are constantly assembling/disassembling, that just drilling an undersized hole in the fastener-area that was 100% infill, that the raw plastic was just as strong as the inserts. In a couple of cases, it seemed like maybe the insert was better but not consistently. Finally, the only times I use inserts is if I want ease of assembly/disassembly cycles or for a customer that is under the belief that they just gotta have them! Thanks for doing the tests. One last thing: I also found that after a couple of screw-unscrew cycles that adding cyanoacrylate glue worked well to harden the plastic screw-hole. I also found that the longer the screw remains in the hole the more the plastic confirms around and makes it tighter. I do feel that if you would just drill undersized holes instead of printing them, you would get better results not using inserts.

we also use KIPP enforced treaded inserts, also works well to strengthen tread situations in aluminium.

Pro tip I recently discovered and have been using for my 3d printed items: R-Type Nylon Rivets. You can put things together pretty easily with them, and unlike heat set inserts, or screws or bolts, you dont need nuts, you dont need to model any threads or places to insert a heat insert, when you prototype you dont have to throw the hardware out with each failure, and they're cheap as chips. All you need are holes for these, so its dead easy to use them to prototype and for final assembly due to them being cheap and reusable. You can even toss in a few extra if you are selling a product with how cheap they are.

This is the type of video i love to see from you. Suggestion for the next one. What is the best way to use screws with 3d printing. There will be different use cases, lid that you screw and unscrew. a load bearing part(multiple directions), etc.

Great video ! Yeah I would like to see a test with the alternate extra wall option from cura, it seems to fit this usecase perfectly.

Thinking about it, for parts where you have enough depth to use a nut+washer and have it covered up by the top layers that might be the strongest combination of things. Alternating extra walls makes a pretty big difference in my experience, and so does making sure there is enough material there by adding an extra wall or two. Most slicers also have a wall overlap setting that gets them welded together more.

Another thing which is worth noting, is loosening of the screws over time. Having a metal threaded insert allows you to use a more diverse range of threadlockers (e.g. Loctite 222 or 243 etc). I designed a custom hotend shroud and ended up simply under-sizing the holes and forcing machine screws through as "self-tappers" which holds pretty well, but the screws do end up getting loose (I think it's because the bowden tube puts varying pressure on the hotend as it travels across the x-axis). Something else worth testing, is instead of using machine-screws, use actual thread forming screws meant for self-tapping into plastic. They tend to have a sharper, more coarse thread and are often seen in injection molded parts.

Whenever the design allows it, I press hex nuts into the back side of the part with a clearance through hole to screw in from the other side. Make the nut recess compliant to avoid splitting the 3D print. PrusaSlicer has a couple of tricks that help. Modifiers allow more perimeter layers and/or more infill to strengthen the 3D part around the threads. PrusaSlicer also has negative volumes that can increase part strength in a particular direction that can be useful to support loads attached with threaded fasteners. There are slicer tricks for bridging over the top of the inserted nut pocket, with KZread demonstrations. For smaller inserted nuts, typically M4 / #8 or smaller, using square nuts instead of hex nuts will help prevent the nut from spinning in the 3D printed part.

Great video! Thank you for doing the research and testing. I wonder if this means we are better off saving some money with cheaper fasteners. 🤔

USSA woodworking channel uses threaded inserts for wood in their designs. They also insert it from the back of the part so the chamfer helps spread the load. Would be interested to see how they perform. I only use inserts for parts that need to disassembled fairly often. Normally I just undersize the hole by the thread thickness, and let it self tap.

An idea i just jad while watching this was to redesign the insert to be a truncated cone that is pressed into the opposite side of the material. This would greatly increase the contact area of the insert. It also spreads the load out over more material and gets rid of the aligned perimeters that pull out so easily. No blind holes and slightly more limiting but would also be more hidden. Or maybe just putting the bolts in from the opposite side of the inserts. The inserts do seem to move a lot of material out of the way, which may be creating a shoulder for the insert to push on. You're likely still only contacting the perimeters though, which would still be the weak point.

Great video as always 👍 Personaly, I print with square nuts, and make a pause, when I shall place the square nut in the project, and then the printer makes a "roof" over the nut. Thanks for making this impressive work, that shows what works and what dont. 👍😀

The best thing about the inserts is that they allow for the screws to removed and replaced many times without messing the plastic up. Holding force on most screws into plastic is usually fine for screw it together once jobs.

I've always used printed threads and they are fine from M5 up. Pro tip is to tap them after printing but not with a drill and machine taps but with a proper set of hand taps. For anything smaller than M5 I typically use hexagonal holes and nuts. Great video BTW!

I've used internal nuts (kind of like internal magnets) as threads with really good success. You design a hex cavity inside the volume of the part. Pause the print when the depth is such that the nut fits flush with the top layer. Then continue the print, locking the nut inside the print.

18:00 I use these to put machine threads into wood for furniture & cabinetmaking: they can be glued in for extra strength as well.

Was glad to learn about the threaded adapters. I’ll be trying those. But I do have good results printing a coarser thread in soft materials like we have with 3D printed parts. In particular I frequently use #10-24 printed threads for small part assemblies.

I did 6 screws into PLA, each with a drop of CA when I screwed them in. After some months I needed to take the thing apart and ALL 6 #6 screws broke off at the head without removing the screws with no deformation of the plastic at all. Sometimes the clamping force is less important than the shear force and in those cases direct screwing into plastic can work pretty good.

I always, where possible, use infill blockers cylinders around screw holes. It helps when mounting (dont break out so easy) but also whitstand pull and push forces better.

I tested a lot of different solutions. Here is the best one iv found : print your part with 4mm wall around the hole where you need a thread. Never use 100% infill as the insert will deform the part. Use 80% so there is some space between the walls and the insert. Put the brass insert in the hole with some heat. Wait it cools down, then anneal the part in your oven. The brass insert will slowly melt the plastic layers and crystallize around it. I got incredible results with this method, using nylon. It also works with PLAplus HT. I always use M5/M6 inserts. Second method, use Helicoil inserts (80% infill) then anneal the part in the oven. After annealing, tap inside the helicoil so it removes excess plastic inside the threads

Alternatively, create a pocket for a hexagonal nut, pause the print and drop the nut into the pocket before continuing. You can also use a square nut slid in from the side or a nut from the back if you have acces to the back.

Cheers for the work. I really like it. Would you try - as well as Stefan did - screwing the bolts directly into the through holes. No tapping beforehand. I myself use this all the time with so many different materials and have super results.

I've found that friction threading fasteners into unthreaded holes works quite well.... What you do is you rapidly turn the fastener in about a 1/4 turn then back out a little less than 1/4 then back in a 1/4 until the fastener is seated. The friction from this rapid back and forth heats the fastener so it doesn't cut rather it melts it's thread into the plastic. If you size the hole correctly it will take a little bit of muscle to seat the fastener and you will be able to feel the resistance slightly lower when the fastener starts melting it's way in.... The result should be a tight thread with it's layer lines fused together. Something you will not get from a printed tread. Also this method of threading does not clog the hole or remove any plastic. The plastic is pushed outward into the walls, if anything leaving the wall thickness slightly higher.....I've used the word fastener in this description over bolt because I've used this method with screws as well as bolts up to 1/4-20. Other than that if I just need a thread in my print where the bolt will be repeatedly adjusted I heat set an ordinary nut into the print. Which is cheap strong wears good and I don't have to order anything online to complete my project. With heat set nuts I print a hexagonal recess in the hole slightly smaller than the nut and push the nut in with soldering iron set to as low a temp as I can where the nut will still push in. Like with fiction threaded fasteners no plastic is pushed down into the hole. The plastic is instead also pushed outward increasing the wall thickness. So far I have had zero issues with pullout of friction threaded fasteners and heat set ordinary nuts have only failed in bad designs and when over torqued.

Great video! I really like the mix of 3D-printing, machining and engineering. I'd love to see more about printer settings to make is less prone to 'perimeter pull-out'.

I have had good success by adding more walls around the hole and then taping threads by hand. NOT a power tool. It takes a little longer but it also eliminates the heat issue with the tap.

Great informative & practical segment. I designed a hole with fins (negative cut-outs) extending into the infill area, increasing the hole perimeter material and the engaged surface between perimeter & infill. They are arranged radially around the hole. In my example for a 5mm hole, the fins are 0.5mm wide by 3mm long, with 8 in the radial array. I start & end the fins 0.5mm inside the object surface so that they're not visible from the outside. Since the area around the hole is where the failures are located, this should increase strength substantially. This also would provide space for the excess material to go with thermal insertion. I haven't tested or even printed this design yet - wish I could send a screenshot of how it looks in the slicer.

Thanks from Colorado. If I use printed threads, I increase the perimeters. Also I only use printed threads for single operation, you'll wear out the thread if used often.

I print most of the threads I need in my parts. The biggest factors I have found to success is to use the loose fit feature in Solidworks when modeling the threads and use extra perimeters for those holes. In Prusa slicer I will use circle modifiers to add perimeters to the threaded areas and they don't pull out as easily. I never have to clean up the threads and they all fit in fine, even the m3. This has worked for me all the way up to m16, I haven't had a need to go larger.

strength is influenced by position on the plate while printings more than the time they were all printed at. Heat load and thermal stability are the golden variables for consistency

printed a hubwheel for snowblower, gg. Threaded centre. printed a rain showerhead and a long extender, both with threads. 100% watertight and works like a charm. reused the old gasket as well :) now im showing like a pro after next snowfall 😉 took alot of moving the model around and support job though.

Hi Thomas, first at all thank you for your always excellent videos. If this video, you are in fact testing resistance vs. torque which is fine to know how the attachment will resist to an over torque. But according to me, should you be able to test resistance vs. axial force, this will provide tremendous inputs on how these fixtures resist under load. And we could have some surprise with plastic tapping. And should you be also able to test self-tapping screws at the same time, this will give us a whole overview of attachment resistance.

Usually, a screw is tapered to a point at the end, and a bolt is the same diameter for the entire shaft.