Making bulletproof wood

I was thinking the same thing 😂😂😂

lol if he smoked he could get good use out of it, too bad it was aluminum since it was cheaper than the other option.

He has a Nugsmasher Ultra. More power, more pressure, more nug smashing!

Wewd!! ❤

I really want one so it would have been cool to see one in use!

Ever thought of making a few videos yourself? I'd love Armor Material Science 101

great explanation, but i never trought i would see a body armor expert in a chemistry video comment section XD. anyway, have a wonderful day

cool

Make your own videos on armour

​@@DSlydeagreed

Timestamp?

@@blasttyrant3228 29:59

do you think we can get him to send these to demolitionranch?

As well as “i then got rid of the gun I probably shouldn’t have been running with”
That made me lose it 😭😭

My favorite is "And again, after fifteen hours of work, I was left with a wet block of wood." at 25:08 I don't know why it cracks me up so much lmao

It’s what makes me truly appreciate his videos when they come out because they are years of work just for internet strangers, but because he is passionate about his subject the videos are always amazing.

This was just barely a chemistry video honestly.

@@KakavashaForever this guy probably dont even know was dihydrogen monoxide is, and thinks NaCl is a dangerous chemical

@@KakavashaForever all in all you gotta appreciate the effort

@@dyvdwastakenYou don‘t need to go around telling people you have a small penis

You explained this so well that I feel smarter now, even though I know I’m not

yeah I thought the same, vacuum would help to make the chemicals penetrate fully, also help when drying too

This is the way

@@GlazeonthewickeR you're better than that!

i was about to comment that in a less well explained way... i like watching videos where mashmallows go brrrr under vaccum, yup

Yep, 9mm out of a 16" barrel gives the 9mm as much knock down power as a .357 mag. The longer barrel drastically increases the speed of the projectile

@@bradleysmith9431omg knock down power hahahaha. That fake term is still being thrown around? Is this 2005?

At first my brain couldn't wrap around the idea that a longer barrel would give the bullet more energy, since it's the same amount of energy being put into the bullet. But then I realized a longer barrel means more time for the propellant gases to expand and impart their kinetic energy to the bullet.

@@DashsChannel Exaxtly right, and that’s the appeal of PCCs. It allows you to get a full powder burn and utilize all that the round have to offer.

​@@Lumens1haha lol, everybody is ignoring you 🤣

hotpocket of treated wood
Man you got ways of putting it. I agree with your suggestions though. This is really interesting to me and I would love a revisit.

Underrated comment, honestly best advice I’ve ever seen in a UA-cam comment

This shit would work. It’s straight up what he’s doing but using the logic of grapheme and Kevlar as your discussed. The layers splintering and dispersing the weight evenly. W comment

I think the problem is he's not heating/cooking it while compressing it.

Perhaps taking several of these panels made as you described, and stacking them with an elastic contact cement. Spread the energy out further with the same principal as ballistic glass

Litterly no one asked about cb: never mind didnt watch the video fully sorry

does he show up at all i'm only 22 minutes in @@NbNgMOD

I am absolutely shocked Code Bullet was in this video lol, how TF did that even happen lol

40:17 there he is!

ok anyways shut up this is a public comment section@@NbNgMOD

There was a wrong assumption from the beginning on (several times mentioned, like after 24:00 ): "Not hard enough", "Hardness", etc. This feature does NOT stop bullets. The ability to completely take up an IMPULSE force and to equalize it over a big area, in contrast does.

@@dieSpinnt correct me if I'm wrong: a very hard material could be brittle and be unable to stop a bullet, right?

​@@dieSpinnt Webster definition of the word hard: "not easily penetrated : not easily yielding to pressure"
I'd say hardness is a fine word to use here. Hard itself is a fairly vague word, and stuff that's hard on for example the Moh's scale might not be hard when judged by a different metric.
Given the definition for the word hard says "Not easily penetrated" and he's testing to see if a bullet can penetrate it, I don't see any problem with using the word hard or hardness to describe the situation.

@@lucam8758 The material you're describing is pretty much glass, and it has to be heavily reinforced to be able to stop bullets

Indeed. Probably he would have ended with a much stronger single piece of wood if he had applied vacuum.

Came to say that exact same thing. I would even go further and suggest to do a few cycles of vacuum to atmospheric pressure, or even higher pressure if possible. Considering that the timing of the reaction is important in order not to remove too much lignin, it is important to get the caustic soda and sulfites inside as fast as possible. Same thing for the rinsing afterwards.

I was going to leave this comment, with the caveat that pulling a vacuum on it will make the water boil, and having a solution of boiling sodium hydroxide under vacuum might be a little dangerous/impossible depending on the kind of vacuum pump.

What about pulling a vacuum through the end grain to draw the chemical bath through the wood continuously.

I was thinking thinner plates of wood.

exactly i was thinking that so even tho the first time he used a gun it blowed the back it actually didnt do so bad because its not a hand gun or a small gun

I think he should try 5x thinner layers and go 10x layers and laminate them similar to Kevlar.

I was going to say the same thing! So he stopped a 9mm at what is basically the maximum energy (or penetrating power if you prefer) that you can expect out of the caliber. Very impressive!

you'd think it would but longer doesnt always mean better.. in fact the 9x39 mm optimal barrel length is around 7 1/2 in. anything more you start to lose velocity to friction on the barrel rifling due to the gunpowder being used up prior to bullet leaving barrel

Yeah I was gonna mention that. I was really surprised.

I dunno... there was the 15 mins i was , like, 'put 2 at 90 degrees opposition!'...

​@@peterobinson3678cool

@@peterobinson3678 the whole time i was pissed cuz he would let it boil overnight where the psi dropped to 0. Obviously that means water left gaps and there's more room to squish it...

@@lemonke8132pfp says it all

that dude is as tall as a fucking building

He can dunk on Shaq

@@mastrorickdamn, but dunking on the 45-50 yo guy is brutal tho

Yeah along with the 9/9/99 birthdate and “sepia” eye color 😂 he’s a fruit fly

cm is short for Canadian meter and there are quite a few comments talking about it

[insert blank comment here]

Yup😊

@@wagnerramosmidichannelabso514shut up NERD

It's not Halloween for me

Um technically it’s 59:37 ☝️🤓

Dang! I didn't even realize this was an hour-long video!

Same here.

yes when I keep skiping it XD

I thought it was only 20 minutes.

don't forget Primitive Technology

Sorry but i aint. Reading. Allat.

@@Noober_kingYimzzz

ong

​@@Noober_kingdon't worry your low attention span is just what you should work on. You got this babe

Well said

Oh yes I was thinking about that in the first half of the video as he used these thick wood sheets

Exactly my thoughts. If he crushed them all together he might not even need glue

Maybe it would be better to use circular pieces, so you can give each layer a slightly different angle to diverse the orientation of the fibers.

smaller thinner layers most likely will provide worse results because it takes less strain to break a single thin layer thus as each layer breaks the entire thing looses its overall strength. The weakest link type of problem. This is easily seen in body armor. A single plate will greatly out perform multiple weaker plates.
EDIT: With 1 possible exception of changing the angle/direction of grains/threads. Now if that was possible on a flush/fused layering that would would be drastically better than having independent boards like in video. Having multiple boards going same direction though would be worse than a single sheet. So having varying angles of grains/threads as a single board is better than multiple boards obviously.

​@@KaneCold yeah dude, wait yeah do you think there's an optimal way to do that? just rotate 90 degrees every slice? take 360 degrees and split it evenly amongst the layers? Something else? I'm not an engineer, i don't know shit.

Yeah seeing all the steps and reasoning after each successful or unsuccessful experiment is the best part

frfr

Failure and trying something else is a big part of science.

its a hook to keep you watching

When he cut the wood and it was dry in the middle...this was my thought. A vacuum chamber would make this process far more reliable.

Either that or pressure cook it

I saw this process being used to pickle cucumbers within like a minute

My thought exactly. Like the pickle from Action Lab

So fun coming to write a comment and finding exactly the same already here and even citing the exact same pickle video I was thinking off when he cut the side 😛

This is somehow weirder the further it goes on

Now we know why he never uploads. He's just too busy helping Nigel test how hard his wood is.

Together with Emplemon and Barely sociable

Code Bullet, now with real bullets.

I am not familiar, but looking at their gaming channel, I presume this is a joke because their name has bullet in it. I will return if an actual gamer appears in the video to shoot the wood.

dumb shit coding and dumb shit chemistry.
Now those are two things I never thought would become related.

what i love is taping the wood to the block and propping a stick behind it is so a Code Bullet idea

Hm I wouldn’t call it a collab, more like a cameo.

Code Bullet was on the Safety Third podcast which Nile is usually a host on. I can't remember if Nile was on that particular episode though, he hasn't been hosting as regularly recently.

Idk who this is, but he is very handsome, unlike the dude running this channel.

I feel like that would be out of his budget.

@@derpmaster2732 yeah but i think thats how the paper made the test

​@@derpmaster2732 eh, you can make a vacuum chamber for relatively cheap and adding a hot plate shouldn't be the hardest addition. For the small sizes he's working with it shouldn't be super difficult or expensive

@@LavaDonutsI am looking for some plans for a relatively cheap vacuum chamber, got any hot tips? Thanks.

For the initial step you could use a similar setup woodworkers use to stabilize wood. Pull a vaccum with the piece of wood in the solution, the vacuum will pull all of the air out and the solution in. Not expensive at all.

I f-cked around, I found out, I'm recording it, and now let's kick it up a notch!

Just remember that stuff is in fact a technical chemistry term

@@EmiStar070 "Remember kids, the only difference between screwing around and science is writing it down." - Adam Savage, Mythbusters

@@dominikbeitat4450 it's science if you record it!

well that's basically how it works
colour changed so chemically something happened
(probably)

Absolutely underrated comment, imo.

What are you even trying to say

​@@superstar5123he's kinda like that barn cat, ya know.

he got dat barn ket in him

Literally just saw the same comment under a wendigoon vid

Yup. Thats how plywood works and why it's stronger than the same cut of homogeneous wood. Also when stacking pallets or loading trucks you use the same or principle to make the load far more stable. One of those simple but incredibly useful buts of knowledge. I didn't realize it applied to sewing, so you taught me something today. Thanks!

I also didn't know it applied to sewing, but epoxy/fiberglass bullet proof armor is made the same way, also, carbon fiber bikes which is just epoxied carbon fiber, applies the same principles tactically, depending on the stress points.(continuous fibers are strongly circumstantially)

this idea is used in many different things, like plywood for structural strength, or kevlar for strengthening actual bulletproof armor
another fun fact, kevlar is actually a fabric and is easily cut by scissors

I had the same idea

I used to work in a treatment facility for power poles and this is exactly how our process was. The wood would first be placed into a tank under vacuum to remove moisture, drained, then the tank would be filled with chemical and pressurized to force the chemical deep into the wood.

Exactly this!!! The pressure pot is commonly used by knifemakers to make much harder knife scales (the wood handles) by drawing the air out of the tubes in the middle of the wood allowing it to be replaced with the hardening liquid. This experiment also needs to be much more scientific with a non-soaked, non-crushed original, a crushed, non-soaked control, and maybe a second option like epoxy used on pre-densified but untreated wood and also on un-crushed wood before crushing - this probably wouldn't work as well, but that's what experiments are for!

That would require a much more complicated setup. Pulling a vacuum on a heated, frothing, caustic liquid would surely make a big mess and kill your pump rather quickly.

Was looking for a comment like this. Totally agreed. Wood would not just soak in chemicals. @@Glenn_Rainwater

he shouldve used walnut, and along the grain, rather against the grain

He has such a particular cadence to his speech; I feel like you could set your watch to his pauses and upward lilts

@@jupiter_adept his voice is so intriguing he made a video about it

@@karet2490what video?

@@pearlspearlspearIs I don't remember thr name

I think a pressure chamber instead of vacuum would be more effective. It's not so much air that's the problem, it's the fibers in the wood.
Or perhaps pulling a vacuum and then increasing the pressure would work best. Removing any possible air and then forcing the chemicals into the wood.

@@oriontherealironman It seems like its a similar process to making stabilized wood, in which case you really do need a vacuum chamber, you pull the air with the vacuum chamber then when you release the vacuum its replaced with the chemicals

the vacuum chamber would very much boil the chemical solution so that would not work.

I think he should compress the pieces together instead of using glue. Will the heat chemically bind celulose from separate planks?
That way, he can do a four or five layer block without being more glue than wood.

Man, now I'm scared he won't ever get back to this project. I'd be so disappointed.

100% this! The untreated bit in the middle was probably due to water not being displaced by the chemicals. Looking at the splintered wood it shows the inside is pale which implies untreated. Would be really interesting to see wood which was treated all the way through.

Yeap! My thoughts too! Self-sabotage with too thick pieces. Except I don't think it was water in the middle - it was air! So a vacuum chamber would have solved it. But regardless, the chemical treating would be made much easier with thinner pieces. So prioritize thinner pieces over using a vacuum chamber. But there's another very important benefit too! Since the wood splits along the grain, alternating the grain directions results in the the force of the impact being spread over a much larger area. Since the bullet-stopping effect comes from how much area of the wood that is made to absorb the energy, having many thin layers of alternating directions should improve this material by several hundred percent!

You already said everything I wanted, so have a like and a comment to bump it up

Maybe saturating the wood totally in vacuum chamber

in practical application, i feel like wood like this would be best used overtop of thin metal basically in the same was as ceramics.

The first thing I thought is I totally want to turn a cheap 2x4 into a fingerboard for a guitar. What's really interesting is the potential to mold the wood as it's formed. You could potentially compress scrap wood into 'hardwood' into a specific contour or add other features at the same time. Hell, I'm curious how it'd look if you just stuck a quarter under the wood in the press.

hmm, same, though of turning it into a pickaxe or something, would be kinda cool

Try it with Hemp. Henry Ford built a Hemp Composite bodied model-A and demonstrated its durability by shooting it with a .30 cal machine gun. After which, he walked up, wiped the powder burn and fragments off, and proclaimed, "See folks! Not a Dent! And hardly a Scratch!" But then Stanley steel, Standard oil, and Hurst timber, made sure ol Henry, "got with the program."...

#HempCrete #HempCeramics

I wonder what ol Henry's recipe was.

I was thinking the same thing. The collab we never thought of but appreciate.

yeah when i saw CodeBullet i was like "holy fucking shit"

Won't that make the vacuum solution boil off?

@@NorthBus you can always pull a light vacuum so the pressure drops to encourage air out of the wood, while also being higher than the boiling point of the solution.

I was thinking the cooking stage in a pressure cooker would help with penetration, maybe soaking in a vacuum then cooking in a pressure cooker.

This wood is FUCKING RAW

Use pressure to drive the solution into the wood?

Not sure about that, feels like this lacked any scientific process at all.

@@cda32 Nigel consistently explained the thought process used to hypothesize what could fix issues he observed, which is the cyclical hypothesis-experimentation-evaluation loop that is seen in the scientific method.
The edges of the wood still expanded -> maybe there's something wrong with how it was compressed? -> evaluation of video footage leading to discovery of the top plate shifting -> maybe center it better and use larger block to keep it more stable? -> worked a bit better, but it still expanded a bit on one side -> maybe use a steel template to prevent the wood from expanding? -> the wood didn't noticeably expand

@@cda32 the process of trial and error is the scientiffic process. you test a hypothesis, record the results, then you try again improving the process each time. this is how we end up with wood armor one day lmao. maybe not, but still an interesting project to me at least

lol some months later nile would say so we are testing if my wooden bunker can a bomb

And then to construct an atomic bomb from apples

The paper used several different woods and supposdely it worked on any so if anything tahts on the paper itself, not him

​@@frandurrieu6477that's true it's crazy tho because I was thinking the same thing because I think it should have been obvious that different words with different grains size and width would give different results

he's also friends with Michael Reeves

Unfortunately, he's also friends with notorious child predator Carlos the Frog. 😒

He is friends with javrils too

​@Plushiegamyt Or is he? 🤨

i also remember him having to pressurize air out of wood when he did his translucent wood video to fully penetrate it, which probably would have helped for this experiment too.

@@midnlghtmoonthat was resin iirc, and this is water, so it’s probably not as important

​@@nopenoperson8964I think it is actually fairly important. It would definitely help the wood uptake the chemical mixture much better. Coincidentally this is how you would treat wood for certain applications.

Also the vaccuum chamber might come in handy getting the liquid all the way through the wood.

Agreed. In a pressure cooker? Or a vacuum chamber? It was definitely not treated in the middle. Amazing how screwing up shows you what the problem is! Now it’s up to you to find a solution. (Vacuum/pressurize)

My thought was doing it in a vacuum! They do the same thing when they’re impregnating epoxy in wood to harden it.

@@Jrskeetprohe obviously had to start chemical part with vacuum to make it penetrated inside the wood or make thinner plates. and then press bunch of thin pieces in plywood fashion

And another thing would be to make it bigger, it needs more area to spread out the impact of the bullet.

And honestly, using the pressurized method plus layered, while it is not something that would be good for body armor, making things like furniture, like a table top/desk top like that could actually make the idea of 'flipping up a table to protect yourself' actually work.

Seems neat to me!

@@jaxtvgaming228 I agree. Although I also must admit that those steps might not be the easiest, especially when working with a vacuum

Just came to make this exact comment 😂. thx for putting it way better than I ever could have 😊

3) use more horizontal/vertical layers, i.e. half the thickness of each slab, but twice the number of layers in total

Also, he can use 1 to 2 mm height size compressed wood and compact together many sheets, that'll probably homogenized the system due to the fact that a thiner slab in this case can be less prone to critical structure failure.

CODE BULLET!?

WHAT

Like… Code Bullet is a chaotic Australian and Nile is textbook stereotypical polite Canadian… how did that happen?? I need to know all the details of how they met and became friends because that sounds like an awesome story

They aren't "friends" it's a Collab

​@shakes.816 how is it a collab if code bullet provided almost nothing for the whole video

also: composites! if this is intended as armor, he could incorporate a thin metal sheet - the wood absorbs and breaks up the bullet, the metal stops any fragments from exiting

Something to also consider is trying to keep the grain on the wood as symmetrical as possible. That will help with even pressing the wood. It might also be worth using a pressure vessel to treat the wood. The extra pressure would force the chemical deeper into the wood. That has common wood as treated. It's also how resins are forced into wood. A final note, pre spread the wood glue, to prevent air pockets.

@@lit_for_20 yeah a piece of abrasion resistant steel or titanium would help a lot

​@@jonathanbates9928pressure or vacuum?

ALSO! he should "Stabilize" it. A process that uses resin and a vacuum chamber to turn soft objects hard.

Blood of my blood 🇿🇦

He acknowledged me😁😁 Thanks Nile. Hope you have a great day.

@@-N0V4- My fellow South African. Whoever you are, you are super cool if you're watching this video

A casual Runescape player

He does this all the time on multiple projects at the same time- and not even all of them make it into videos. Nigel is truly just an absolute monster of dedication

His name is nigel?

@@lindboknifeandtool Yes

You see the insane lab he's setting up with all the money he's making from people watching him do those tasks? It's kind of a motivating factor.

As someone who has to read papers all day long and figure out how to apply them for work, a lot of papers need to be clearer on exactly how they do thing and with what kind of setup.

I get the impression that if a process might have practical applications the papers are made as simplified and misleading as possible without actually lying in order to maintain some value to their expertise in the process.

@@Michaelonyoutub Tbh papers should come with all the processes documented via video. Cameras are cheap. I know some people are already doing it, but it's far from the norm.

researchers need to start vlogging

​@@cate01a "Yo whats up IEEE, ... if you liked the video don't forget to cite"

I have not once cared about celebrity appearances in shows or anything, but the moment I saw Code Bullet on a Chemistry-based channel, I actually jumped out of my seat a bit.

The collab of Heroes we needed

Have you discovered safety third podcast yet?

Evan was the last person i expected to see on a nile red video ngl

Brings him to the forest like "wait I thought you were a shooting channel"

I’ve seen a lot of broken shit on numbers but never a window so good job😂

I feel like even a thin layer of Kevlar in-between the wood would make a huge difference. Kevlar is pretty crap at stopping bullets but with a hard ceramic plate it works great. Which that wood is basically the same thing. Probably much more expensive to make the wood but cool as heck

a layer of kevlar behind the 2nd layer of wood could probably do it

If you look at the process of compression, you see that the middle section isn't compressing as well as the rest, maybe hinting at problems with chemical penetration.

Yep. Even in testing, the inside of the wood was a significantly different colour. Appears that the chemicals didn't leach. I think it would be better to use thinner pieces of wood so that they leach completely. Then crosshatch like ply in the press. Doing it without glue would also be a good test as to whether the hydrogen bonds can occur between seperate pieces (and therefore test whether they occur at all).

Maybe its pressure treated wood? Making few small holes to the slab could help to make the slab all the way moist like 2 5mm holes in both endgrains

Not only would using thinner pieces of wood help ensure the absorption of the chemicals throughout the whole slice, but I believe cross-hatching 5 thinner pieces of "bulletproof wood" would also make it much much stronger due to more pieces being cross-hatched. If he did that, I feel like it could potentially stop a 5.56

​@@beaugrylls7771even thinner pieces would be problematic as wood fibers absorb length wise. Shorter pieces ;)

he didnt have money left to buy anything else than pine lmao

Haha. Someone get this man a bottle of titebond

Dont forget the US$1,556.37 at 33:52

He’s gotta save money _somewhere_

You gotta realize that they could sell or use that machine in the future, aswell as the fact that they were buying the actual machine for more money than the material because they wanted to proove that even the bad wood could turn bulletproof

Did you use the same steps as nile did or did you use a different kind of wood ?
Because a 9mm is a significantly stronger bullet. And judging by the efforts nile did, it is really hard to make a bullet stopping wood

@@VICIOUS1209. significantly stronger bullet than what? NileRed also tested against a 9mm and was successful.

@@tracyh5751 with a way thicker piece of wood

I really wonder if using smth like Oak instead would do much better against a ballistic projectile

1/4 inch thick armor wood or 1/4 inch of penetration?

I agree (except for the resin part that is probably more harm than good), i would use some different wood with a tighter grain. Unfortunately the good couple centuries old pine is no longer available for more than sample sizes. If I could manage to make or find a press for cheap I would definitely try to make a few

I feel like a vacuum chamber could work really well to force the solution into the wood, kind of like how instant pickles are made

If I remember correctly high pressure helps to force a liquid into something as well

I think it would just make them realise how poorly their method in the paper was written if it took Nile this many times to get it right

@@user-op8fg3ny3j They could use that as critique and make it better

​​@@user-op8fg3ny3jfrom the papers I've read, that is quite annoyingly a common theme, scientists need writing courses unironically. (But no hate, they're very highly educated, it's probably hubris to a degree, they probably just assume other scientists know what they mean)

The research is awsome, it open up paths for many new considerations on the subject...but things like claiming is near strong as steel when it's clearly not, kinda fishy...

@@user-op8fg3ny3j I think they know how well they described it, and that it is very common to give far less than perfect descriptions of experiment in scientific papers

And the thinner layers of wood would be penetrated more completely by the chemicals, too.

Also it may be interesting to try alternating layers of different wood species, and make a sort of composite armor.

but if it's enclosed on all sides the liquid cannot get out

​@@kingjojojo1leave it open at the corners

​@kingjojojo1 Leave a few small holes, the liquid will pressed out.

yeah, I actually wonder if it was a big thing though. Makes me wonder if the wood in the study was well seasoned and dry first. IM gonna do a google search on getting stain to penetrate all the way through wood. Also were the depth dimensions he used the same as the study? because that could change everything, because even if the outer shell is fully treated, he's then potentionally mixing that outer shell with the untreated inner shell, and that could throw off the whole chemical fusion aspect. the water is assumedly the only thing in the treated part by the time he was pressing, so it's not transfering over the first solution he used while pressing even. I wonder what would happen if he cut it into thin strips adding up to the same depth of starting wood, and then pressed them like that. One time with all the grain going the same direction, and one version with them criss crossed(even though that's not what was cited in the study, we might get some data from that)

I absolutely think it played a good part kinda a weird oversight

I wonder if drilling very small holes through could help disperse the liquid through the whole block. I imagine it would affect the structural integrity of the final product but it would be worth a shot if the idea is revisited someday.

@@Preston241 It might not, considering the fusing process it is supposed to later go through when compressed/heated. You might be on to something!. Space the hooles a little less than the distance he observed it soaking through when he cut it? i think you're on to something worth trying.

⁠​⁠​⁠​⁠​⁠I also thought about the pressing process eventually permeating deeper into the wood, however, since the wood was washed several times and soaked, the solution would not remove the lignin and hemicellulose deeper in the wood.
I think a reasonable solution would be to pressure treat the wood, instead of soaking it. Or prior to that, attempt soaking it for much longer.
Or perhaps soaking/pressing multiple thinner layers, gluing them together with the grains reversed until a net desired thickness is achieved, and then try shooting it! I would also say that since wood glue is designed for wood and not designed for densified wood, I would also experiment with different types of glue if issues continued to persist

underrated comment

EXCELLENT.

Indubitably.

How the wood was dried should also affect how it takes up the solutions used. Almost all commercially sold lumber is kiln dried but standards for rate of drying and target moisture content vary from place to place. There will always be some minimum amount of moisture left, so “roasting” it before soaking should help. (Naturally seasoned wood is preferable but takes quite some extra prep time.) Before and after weighing as you say would be helpful.
I get that Our Hero has limited engineering skills (despite him realizing that mechanically restricting the wood during compression was a Good Idea) and the following engineering solution might be beyond him, but heating and compressing the wood (after ensuring full penetration of the solution) under vacuum would help extract more of the solution and assist in compacting and cross linking the fibers.
Your pancake stacking analogy echoes a thought of mine; the “diagonal” cracks to me looked like they followed the pre-treatment grain of the wood. Obtaining lumber with the grain perpendicular to the larger faces of the wood (e.g. 4x2 as opposed to 2x4) can be challenging but might yield better results.
(Minor nit: I think you meant to say that tank armor uses *non*-radioactive (depleted) uranium.)
I love the comments on these videos that bring up things the creator doesn’t know or didn’t consider.

Modern tank armour use depleted uranium

HELPPP

Ong he's so generous

Lmfao 😂😂 I couldn't help think this the whole video tehehe

that's what she said

let him cook

yep, my thoughts exactly!

I was also wondering that. If the solution didn’t fully penetrate it would make sense as to why the pellet and .22LR could go through.

He should submerge the wood in a vacuum chamber in order to fully saturate it.

my thoughts exactly
@@chrisdib9269

@@chrisdib9269 Water boils at ambient temperature in a vacuum.

This should be a comic book villain. A tree that's jealous because it's friends got to be super heroes and experimented on itself to become a tree monster

Canadian laws make it really awkward do do anything with handguns unfortunately. They can't even be sold or transferred between owners anymore.

​@@chemistryofquestionablequa6252Canada gun laws are big stupid

Only ways he could have used a handgun for the tests would be to either:
1. Go to a range where they'd allow him to test it
or 2. Own land in a rural area and submit papers to make it a personal range
Easiest to just use a rifle honestly

​@@TrilliumGrandiflorum480Turdeau is a subhuman tyrant.

@TrilliumGrandiflorum480 wasn't really criticising it, I know canada's gun laws are all sorts of dumb. I am in the US, so I don't know the specifics up there. Just thought it was good context to add that is not mentioned in the video about the barrel lengths.

But cutting it would be hard on blades.

Yeah! Might not stain

Scratchproof hardwood, in literally any shape… holy shit.

@@MegaBrokenstar Hexagons, hexagons are the best-agons,

@@NoahSteckleyyou could pre-stain the wood before densifying it, or stain it during the chemical treatment which would likely result in a perfectly full-depth stain. Alternatively, the results of processing are already pretty beautiful and highlight the grain nicely. I’m actually kind of excited about this material as hardwood flooring and especially as trim and shoe moulding. Not to mention tabletop, workshop, and kitchen applications. Imagine an entire dining room table that is usable as a cutting board without the slightest trace of damage. The idea of a relatively cheap to manufacture scratchproof and dentproof wood product is tantalizing.

Also rather than gluing the end plates together it may be worth a try to just press them together in the first place. There's a chance that the same reaction that makes the wood denser could also make different plates stick to each other

@@DrunkGeko I was thinking exactly this. A bunch of thin sheets pressed together in alternating grain patterns would probably do a lot for strength. I'm thinking 1/2" or 1/4" thick pieces/

so, plywood 15 pro max?

I think properly drying the wood before using it as a sponge, then soaking it like a sponge, as well as thinner pieces for better chemical penetration. The only variable that you didn't change yet was the way that you're treating the wood. You got the press dailed. I would also try pressing drywood, untreated wood, just to see how it behaves.

@@highonahill perfect

I agree totally. I thought the eureka moment was at the band saw when trimming treated timber. I was expecting a change in how he was treating the wood.

It's interesting that he did this during the clear wood video and not this one

@@uggiebear1 Yeahhh... I keep thinking back to that moment and how he should have seen only the outer layer of the wood was treated. Vacuum/pressure in the wash and rinse stages would be necessary. I also think he could go *much* thinner considering the strength when so little wood was treated. I would like to see what four ¼ in pressed layers can do. Use urea formaldehyde or phenolic glue for gluing the layers together, use the correct amount of glue, and maybe dry the treated wood in a kiln before squashing it to prevent liquid from creating cavities in the fibers.

As an added experiment, I wondered how the material would perform if the core was saturated with an adhesion promoter before proceeding with compression.
When being squeezed, the remaining lignin, which the researchers said was not taken to 0%, I assume plays a role in binding the remaining mass in correct proportion.
The adhesion promoter may also prevent delamination from oils coming out during the squeezing.
Oils can ruin an adhesive bond and make a part weak. The internal binding may be found weak in adhesion and shooting a bullet near an edge, where there is no unsaturated and washed section may prove to be at near the ideal strength.

soak out the lignin and then treat with stabilizing resin before the cook and press? it could be more brittle, but if you cut the block into a few layers and stacked crisscrossing the grain. i think that would be best, plus you could make it a cool color w the stabilizing resin. someone call peter brown, we have wood micarta, or kevlar, depending...

no seriously homies videos are engaging all the way through. it takes a special kind of talent to make videos consistently captivating through the entire runtime and he’s absolutely got that down

I deadass watched the whole video without even noticing that it was an hour long💀😆

I think this also says a lot about how people's attention span has been absolutely destroyed by modern social media.

Throw it on 2x.

This absolutely needs to be awarded the proper attention, I love this style of video if it's pulled off well

I just finished the video and was perusing the comments and took a double take at yours as I realized the video was an hour long. I just happily consumed the whole thing without even realizing how much time had passed. Sign of good content I guess lol

watched the whole thing while doing chemistry homework lol

I did _not_ realize that that was an hour until the very end!

This is probably the longest video I've watched - the mistakes are what really drew me in

Yeah it is shows you the mistakes and lets you also learn by making the same mistakes and understand why

Densified bamboo? You guys are onto something, bamboo is ass dirt cheap, and I it grows stupidly fast, making it highly sustainable, also it's flatter and thinner than wood, so better lignin-removing-solution penetration, less dry part.

@@bodyno3158 that is what we are trying to test, whether this bamboo fiber reinforcement will add strength to our densified woods but sadly our project was cut short due to lockdown. Also, we are experimenting on different adhesives like polyurethane to glue this fibers into our densified wood.

How long do you leave it in distilled water?

@@keiferlee The lumber mill I worked at in high school specialized in LVL (laminated veneer lumber) which is alternating strips of veneer glued under pressure. Sounds very similar to what you were doing but with veneer and lower pressure. Its very strong structurally to be used as beams over large spans.

@@gerald9326 pretty much the same time as in the video but sometimes we skip maybe one or two hours of it since we have to go to school at the same time and don't have time to leave it overnight 😂😂

9mm weighs 100-150 grains 22 weighs 40 grains. 22 is doing 1000 fps giving around 120 ft lbs of energy. 9mm is doing 1300 giving around 400. Lots more energy as you can see by the video. 22 sucks. When you get into .223 you have a much larger powder charge and the gas expands for the whole trip down the barrel accelerating the 30-65 grain bullet for longer making the speed more like 3000 fps giving 1000 ft lbs + of energy. This is what people mean when they say smaller and faster rounds kill armor. Nobody is taking about a 22 with that statement.

@@Nick-xe9medo you mean fps lbs for momentum? These imperial units are hurting my brain and I’m American

Nien milluh meetur betr

You are correct but it also is how finely the force is concentrated on the area it is striking

@@TheThe-om3qt Nick means foot-pound-force, the imperial version of Newton-metres. Yes, it's that annoying unit that could be torque or energy depending whether the force and the distance are perpendicular or in line. If you think it's bad having other units over the border, pity the people of the UK where road distances are in miles and yard, altitudes are in feet, beer and cider are in pints, fuel economy is in litres per 100 km or miles per gallon, fuel is sol in litres, timber dimensions are in mm, milk is in litres, air guns are limited by muzzle energy in foot-pounds-force, airsoft guns are limited by muzzle energy in Joules, shotgun barrel lengths are a minimum 24 inches and other firearm barrel lengths are a minimum 30 cm.
Anyway, 1 J = ~¾ ft-lb-f, and if you want energy per unit area here you go, in J / mm² for 21st Century people:
9 x 17 mm: 3.3
.45 ACP 4.9 to 5.7
9 x 19 mm 7.9 to 8.1
.40 S&W: 8.2 to 8.8
.22 LR 7.0 to 10.9 (That's quite a range compared the others)
10 mm auto: 9.6 to 14.8
.44 Magnum: 11.4 to 17.8
.45-70: 24.2 to 49.2
5.56 x 45 mm: 69.2 to 76.6
.30-06: 83.4 to 90.3
Whether it's actually energy per unit area or energy per unit circumference that matters to barrier defeat could be a topic for a LONG discussion.

Yeah

Yeah I had to stop what I was doing because Code Bullet was the LAST name I expected to hear during this.

Honestly I think the most cold bullet thing is that his solution to the rig falling over was just grabbing a random wet piece of wood and slapping it up in the back.

@@michael9433 He didn't had his Artificial UnIntelligance to think for him!

Also, codebullet appears on the only episode where bullets are actually being fired. What's the odds.

He's crushing it even more than the wood ;)

​@@obbyxright lol

16 1 4h 2h

Fancy seeing you here man!

Underrated comment 👌

Possibly using thinner materials, more layers. I recommend against the pine. Anything but softwood

Yeah, it was driving me crazy he didn't saw through more pieces and investigate what seems to be THE glaring issue. It looks like the solution only penetrates a a bit, but the core is just unaffected. I think he just made mostly squished regular wood.

@@yshwgththat’s exactly what I was thinking the last 20 or so minutes of the video.

Yes, I expected to see either a vacuum chamber or pressure vessel in his final treatment method. Overall great video and great effort.

Consultation with expertise from the pulp & paper industry would probably be beneficial too, it's quite similar to what they do but skipping the "grind everything into chips first" step

Hey im not a gun feller or particularly good at physics I'm curious if I understand what's going on here my understanding is that a 9 being fatter spreads it's load outwardly as it smashes resulting in a larger area being hit with a smaller over all impact which is effective against maiming a target but a 22 being thinner is designed to wiggle through the target because it's thinner with max force
Am I off base

@@Zach-qs2bw nah dawg the 9 mm has more mass than the 22 lr as well as the 22 having less room in the casing for black powder. The equation for force is mass * acceleration which means that the nine mil would be substatially more powerful than the 22 (I think nile said about 2.5 times stronger in the video.) But bp968 is right, it's probably more powerful than nile said because of the longer barrel on the rifle he used rather than a standard 9 mm pistol. The longer the barrel the more acceleration the bullet can achieve because the moment a bullet comes out of the end of a barrel the energy from the explotion is no longer forced to go in a straight line and can be dispersed out into the air. With the longer barrel the bullet has more time to gain velocity before it exits the gun. Good question dawg

@@Zach-qs2bw you’re partly correct in your assumption. Penetrations usually depends on speed, impact surface area and material. However the 9mm was imparting enough energy to split the 3rd piece of wood and it…should have faster velocity than the .22lr with carbine barrel.

​​@@Zach-qs2bwas a dude that doesn't own a gun i seen this hapen i some videos of people testing diferent calibers and materials.
22 will go deeper on some materials than a 9mm.
To be fair 9mm delivers much more force on impact and thats a good thing for the one shooting it.

Gotta add here that he used a hollow point bullet which of course is not meant for armor penetration. The moment he uses FMJ or AP there is a different impact.

Well, CB is friends with the safety third group, which he is part of so it makes sense.

IKRR, blew my mid when I saw him!

​@@youtubeSuckssNowSafety 3rd? AvE must be the president. Lol.
But seriously I've never heard of the group before.

@@robertabugelis3962 search it, its a podcast started by William Osman, The Backyard Scientist, Allen Pan and Nile Red.
They are good friends with CB, Explosions and Fire, IDAT and so many other creators. They are the group that hosted Open Sauce a couple months back.

Ayyy it's CB 😂

I was thinking about possible ply wood like material made of it you'd use it as an internal layer in buildings

That's the whole point of composite materials. Composite materials are stronger than their individual parts. So yeah you don't even have to test this. Adding more layers, even with the same wood will increase its toughness (would be better with different materials in between the layers though).

Depends on the type/rating. Class 4 armor will stop a 30-06 armor piercing round. One. Once. It shatters in the process. (This is what absorbs the energy.) Class 3A will usually stop several rounds at the very least. Class 4 is ceramic, 3A isn't. Vests, (soft armor) are almost unknown these days and don't work all that well. Plate carriers are the norm.

@@corwinweber693 yep this is basically the basis for my comment 😀

It lets you make a mistake once. And gives you a chance to shoot back

@@rear9259 Realistically speaking, there is a greater chance you get shot somewhere not covered by the plate (neck, hands, legs, face) than getting hit twice in it one after another.

@@zuruumi9849That entirely depends on who is shooting.

This is what I was going to suggest also. I’d be really, really curious to see the result. I hope he can do a follow up video soon!

Exactly this

So basically soak plywood.

Yeah I would love to see a part 2 on this. There's a lot of helpful comments and I think he could actually make something bulletproof if he combined some of these methods.

Really hope he follows up trying this

Yes. Buy quarter saw lumber.

Quarter sawn demonstrating its superiority as usual!

Compressing and heating it like that should in theory negate grain in the final stage, the cracks probably formed during the squashing before the cellulose fused to itself, crushing it in a die should fix his issues

​@@DnBastard That's what I was thinking when he started pressing it down. Problem could be the wood "rolling" upwards to the pressing plate.

I think that keeping the pressure and temperatures lower would also help, so that the water isn’t boiling which will be causing air pockets inside the wood, and will allow the internal bonds can form more slowly and hence aide in keeping the wood roughly the same cross-sectional shape.
Personally I’d try a range of pressures and temperatures from 50% boiling point to 100% in 10% increments at the ~700PSI, then similarly for 600, 500, 400, 300… Because the piece permanently deforms with the heating, the lower pressures should be maintainable so long as you don’t press it all in one go, and just press it up to the mark when it drops by eg 50PSI from your target.

Is he really 2,49 meters tall?
Like wth i never saw a person with that height im surprised.

bro that entire ID is a joke did you see that height bro its 98 inches😭😭 im pretty sure hes like 31 or 32 by now

He's Canadian. He doesn't have a gun license, he has a projectile device permit

No he’s like 31. In the safety third podcast he states he got his drivers license like 15-16 years ago so he’d have to be in his thirties. Also, there’s never been a person who’s 8 feet tall LOL

@@baguette4607Tallest man in history was 8 foot 11