Which is The Strongest Material? Carbon Fiber Vs. Aluminum Vs. Steel | Hydraulic Press Test!
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- Опубликовано: 14 окт 2024
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Which is the strongest material? Carbon fiber, aluminium, steel or stainless steel? We will use our 150 ton force sensor and 150 ton hydraulic press to find out! Cable box vs. our press
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Music Thor's Hammer-Ethan Meixell
Big thanks to NordVPN for sponsoring today's video! Go to NordVPN.com/hydraulicpress to get 75% off a 3-year plan and use code HYDRAULICPRESS to get one extra month free.
That computer demonstration was low-key the best sponsor message I've seen on RUclips for NordVPN.
Why do you forgot Titanium?
Just wanted to say that my kids and I really enjoy your videos! We especially like the end sequence when crushing the play doh characters. Keep on crushing it.
That was a great VPN advert and is exactly how it works, I can't use VPN as I have a bad back and I can't carry the 8 ft steel ring around with me 😜
@@TheExBx Thanks for the support! I think we should do new compilation of all the playdoh animals :D
Use a thermal camera when crushing so we can see how materials heat up when deforming.
I think they did once
Yeah, they did, on the steel crushing too like this.
Yeah, and if he can make a strength-deformation curve so we can calculate the energy.
@@johntheux9238 anything he touches that starts off with curves is usually flat by the end of the video.
Sorry, I'll show myself out. 😀
yes
0:53 carbon fiber
2:12 aluminium
3:21 steel
4:27 structural steel
6:15 nordVPN
edit : thanks for the likes
Hero of our time
😂👍🏻
8:49 Monster
Thank you mate
wow thanks, this fucking channe3l makes 15s worth of content 10min, i dont know why
Strukk-urtal? Struck-Ural? Struck-tuh-rahl!
I Amp Soo Pry Sedd.
😂😂😂😂😂😂😂😂😂
This is how to say it: Struck'churl
So funny but so down to earth...love the channel !!
@@moojuice369 I bet others would have had edited it out, but it was pretty good take... so.
*_The strongest material is Hydraulic Press Machine itself_*
Dian Kurniawan iya bener pak hahaha
Haha bener,
Facts
Dian Kurniawan Nord VPN is strongest.
@Blood Orange Sun end of the world
I don't think carbon fiber is supposed to have that high compression strength. It's the tensile strength it's good at.
high modulus carbon fiber is specifically developed
for compression strength because there is almost no buckling.
The more you know. Thank you!
@@johntheux9238 the industries which use composite are mainly aeronautics and areospace. HTS fibres are designed to sustain high tensile loads, not compression. For instance, the blades of ultrafan engines, which i happen to work on. "Almost no buckling" - You cant say that, and you know it. 1- It all depends of "lenght / surface" ratio of your structure. 2- In composite structures, you always end up with defects, plies waving, wrinkling, air voids and resin pockets ... as result of the curing process of the lamina. These defaults will ultimately lead to buckling around them or delamiation / failure if your structure is short and bulky.
@@BeenuZz Yeah but there is no comparison with steel, not only the modulus is higher but it's also lighter so you can make it thicker.
@@johntheux9238 yep for tension. But in compression, steel is superior because it is ductile.
1:01 Carbon fiber 13.880 T
2:39 Aluminum 28.900 T
3:27 Steel 38.980 T
4:35 Structural Steel 63.880 T
@Joseph Coon
Thx🙏
Thank you !!
You have to factor in the weight of each though, for it to make sense.
@@MichaelMadno you don't. Steel is stronger. Always will be.
If only oceangate knew
Carbon fiber is strong in tension, not in compression. You tested the compression strength of the binding agent rather than the tensile strength of the carbon fibers.
This also gives me an idea for a future video: Build a jig to test the tensile (pull) strength of bare carbon fiber strands with your press.
Yes, carbon fiber vs human hair vs Anni's leggings
Even in tension it's only strong in the fiber direction and only if it's not braided.
I thought the same exact thing.
He can name the new channel "Beyond The Stretch" channel.
high modulus carbon fiber is specifically developed
for compression strength because there is almost no buckling.
@swiss exactly
NordVPN must have payed 1M for that awesome ad.
Turns carbon fibre into exploded cigar from Looney Tunes cartoon 😀
Genius observation stacked with hilarity.
Carbon fiber vs aluminum vs steel
Winner: *NordVPN*
That was one of the better sponsor shout-outs I've seen in a long time!
Yep, not at all a High-Pressure sales pitch. 😁
NoordVPN
3:00 The story of every happy marriage "So, my wife was right."
These are the kind of tests I like.
Last piece was a flex pipe, designed to move easily. They are used in car exhausts to allow movement and prevent cracking.
Need more fiber in your diet?, hydraulic press channel has you covered!
Compared to what and by what is always the question.
Strength per kg - CF followed by Aluminium.
Strength per area - Steel followed by Aluminium.
Strength per unit price - Steel then Aluminium.
Stiffness - Steel followed by CF.
Forget everything I just love your accent 🤣🤣🤣🤣🤣
Hahaha
Hahaha
Hahaha
3:02
the wife is always right even if she was wrong.
Guess 7 ton isn't much of a difference
Lessons every husband leaerned.
the way that piece of steel bent and even burned was so interesting !
Yeah, how much energy?
It looks delicious
The problem with carbon fibre (or any other laminated composites) is that we have to design and make them for specific purposes.
It's the geometry of the unit that provides the strength (usually tensile), otherwise it's just a block of resin with fibres in it.
Almost as strong as Anni’s Dead Lift Record!
Hello from 2023. Please don't build submersibles with carbon fiber to go see the titanic.
Since paper explodes when crushed have you tried crushing sandpaper? Different grits? Wonder if there might be different explosions for different grits.
The last one was interesting. The first 4 took a massive amount of pressure to start crushing, but once it started, the pressure required got smaller and smaller as it continued to be crushed, but the last one took a very small amount of force to start crushing, but as it continued to crush it actually required a whole lot MORE pressure to keep crushing. Interesting to say the least.
You need a new channel to test tensile strength. Call it "Beyond the Stretch" channel.
Why NOT CALL IT SRETXH YOR ASSBOLE
The goatse channel.
@@tsaszymborska7389 I go back to dark web. Its easier to explain for FBI.
Should be, "BEYOND THE PRESS"
You tell so nicely about your sponsors! Usually I skip part of video where youtuber tells about sponsor of the video but I always watch your amazing demonstrations! This is how ads should look like 😂
I really get a positive vibe from hearing Lauri speak in his uplifting way of speaking! Anni is cute too. I remember she once repeated the word "paper" with a really long "pay" :-))
Interesting test of compressive strength. I like how you chose similar cross-section tubes for the test. However, you need to specify which alloys of structural steel, stainless steel, aluminum and carbon fiber that you used. Strength varies greatly among the different alloys within each material type. Also, the carbon fiber composites aren't expected to be very strong in compression.
I would like to see two magnets
Very very super strong.
And repeal against both magnets not attract the two magnets like to see how much pressure can it take to touch two of those magnets make sure you weld them so they won't move
That probably won't work because magnets can lose their magnetic property when superheated (arc welder for example).
No need to weld it. Put the one below in heavy piece of iron and another one is automatically attached to the metal in the hydraulic press so if they are really strong magnets they should not move. But then again magnets also lose their magnetic property on high pressure so it might require as much force as you expect.
You know why I said, we'll ?. If it's a real strong magnet. It will find its way to go back because the magnetic force always find a way to go back north or South
@@richardadamson3643 if its being heated super hot for a long time (which will be the case if you're keeping two magnets welded), the magnetic property is permanently lost.
It sounds like they should do it any good talking politics of a damn magnet LOL
From a material's mechanical performance standpoint, yes, higher modulus means better compression strength.
But from practical design standpoint, we do not use CF when dealing with compression loads...
High-modulus and lightweight are what we seek when using this material, for it's stiffness.
Furthermore, tensile modulus is a measurement of stiffness and should not be confused with tensile strength
The Nord VPN part was the best. You should make super bowl commercials for next super bowl!
For extra content, you could do a review of Anni's models, eg "models of 2018".
(And "structural" is difficult for English people to say, too.)
your nord vpn explanation was great :D
I have spoken English my whole life, yet you say structural better than I do lol
Carbon fibre hulls for deep sea submersibles is really a bad idea...it's only useful in aircrafts. Maybe that's why you don't ask an aircraft designer to build a submarine!
You successfully made your sponsor ad entertaining enough not to skip over. Well done!
Very nice, but I would like to have seen titanium.
Wtf Bro haha its too expensive 😐😐😂
Remember compression is not the only type stress. There's also tensile stress and shear stress. You can also consider other things such as temperature, corrosion, abrasion, etc...
That nordvpn ad was amazingly creative lol good job!
That was honestly the best NORDVPN demonstration :D
I miss the way you used to start each test - "And here we go!"
Always great videos. Thanks for your efforts.
I built a 6 story hotel and they used 5×5 steel columns to support the main load. Weight bearing was minimal and steel decking filled with concrete had no chance of folding them columns.
I would like to say that, the result of the carbon fiber can vary as it's a "layered material". The compressive strength will decrease or increase based on the orientation of the layers/fibres.
I guessed;
7.5 tonne for carbon fibre
12 tonne for aluminium
30 tonne for stainless steel
40 tonne for steel (this one was before hearing your guess) :)
12, 15, 17, 22 tonnes for the last thing (indecisive after the last embarrassment)
...................................WOW!
(These were typed as each came around to being crushed, hence the 'live' reactions).
Hey,
can you brew espresso with the Press?
1. Grind the Espresso
2. Press the Espresso powder in the Filter
3. Press Hot water
through the PressedPowder with 90 Bar or more (not only 9 Bar)
4. Check the taste
this is what happened to the sub,
Checking this out after Titan submersible catastrophe and found even aluminum is better than carbon fibre
Strong is a relative term. Shear, ductile, compression, deformation, etc.
Not on this channel. Maybe look for a hydraulic bend or hydraulic cut channel
If only oceangate saw this video
You have to look at flexability as well, especiallt for structures, Steel has the ability to flex while holding huge pressures, where aluminium tends to resist flexing. Fatigue stress resistances with steel is also better then aluminium, this is why Steel is used mainly for structures. Cost also comes into the conversation, since aluminium is more expensive
Best NVPN ad ever 😁👍🏼
Marcelo Castro lol you sure about that?
Aluminum extrusions like that are pretty good stuff. 6005 alloy extrusions are a 35 ksi (240 kPa) min yield. 80% of the strength of that "strukk-t-ural" steel tube and 40% as dense. Only problem is you kill the strength if you weld it.
that was the best VPN ad I've seen
I love how your wife and father come along to watch and support, that's so awesome, great video to watch
Me at 4am: which material is best
I don't know why the bottom sensor pad is not parallel to the upper piston plate, but this is not a good situation since you are applying uneven pressure to the objects. Parallel surfaces will result in higher and fairer test results.
Your wife is right.
And if you're smart enough, you know that your wife is right even when she is wrong.
The way this guy did the advertisement for his sponsor is the greatest thing I've ever seen!
Love the way you pronounced structural steal! 🤣😂😂 For real though, your English’s has gotten better over the years! You guys rock!
I like the way you spelled steel while criticizing someone else's English!
@@arturoharvey9733 🤣 touché… lol it could have been autocorrect but your right. I’ll give you that.
Maybe with the steel, one of the sides was slightly bent which would cause it to fail far faster when putting downward force like that on it
Could the stainless steel have folded more perfect👌🏼 Good stuff guys👍🏽
This was the coolest sponsor video I've seen yet... I usually skip this part.. but not on this channel 👍
"How's that new diet going?"
Me: 3:50
For extra content You should use the force sensor and make the ranking of the hardest extremely dangerous creatures to deal with :)
I'm with you from the beginning. Keep up the good work !!! Greetings from Poland !!
I only came here for todays extra content
Love how you make the info about the sponsor entertaining:)
Hey hydraulic press channel! Hey I would be interested in knowing the before crush and after crush temperature of each material! Thanks for the quality videos! Ride ride ride!
What were the cross sectional areas and shapes of each of the materials? The thickness of the walls and dimensions of the shape do make a difference for how they perform.
As you noticed all she shapes failed due to local buckling rather than a straight compression failure.
" Yeah so back to crushing stuff " 😂🤣
Now THIS is how you do an in-video ad-spot.
7:27 Riley Reid 😂😂😂
Ah. That's how VPN works. I'am going to build a metal ring around my PC myself!
You married a smart woman! I love your videos, and appreciate the entertainment you add to them like the bit at the end haha
Hahshahshahabhs
The uniformity of how the aluminum collapsed on itself was very satisfying. I love when things are uniform.
yeah, i think he meant Structural Steel
HCP the type of channel to write in American (Aluminum), and speak in British (Aluminium) :D
Accent is on point
Great job keeping the sponsor interesting with the press example 👍
After oceangate disaster it is proved that metal is metal, carbon fibre is overrated.
Hello, i have noticed the vapour/smoke of heat during the press. Basically the heat accelerated the process ( atoms jiggling ) So im wondering whether cooling down the materials would give a better result. And thanks for the great videos.
Thats pre strong what about crushing a solid block of titanium
Steel is stronger than titanium.
*Vibranium
The cool part about titanium is mecanical resistance when heated and corrosion resistance.
@@dimmacommunication And high specific strength, and like steel/unlike aluminium it has a fatigue limit.
@@BigUriel Fatigue means being bent over and over ?
You have to do it the same weight in the same dimension all the blocks to be the same size and dimensions and the weight to see which one is the strongest
Can you try that with tungsten.
Nice request
Would love to see how reinforced concrete and other "standard" building materials stack up in this test.
why don't you press huge size springs!
Or anything made out of spring steel, one of the strongest.
@@johntheux9238 that will be great.
waiting....
@@rohanbhattarai2247 Elastic energy is strength multiplied by elongation so if it's 4 times stronger than regular steel the elastic energy is 16 times higher, that will really explode.
It would have been nice to know what grade of materials you were using here.
That aluminium was definitively some unusually hard variant.
Carbon fiber is higly dependant on pattern and structure of in which it was build on. There are different types on weaves and fibres which are used depending on desired load factors.
Try to get pipes in different materials but all with the same wall thickness, to make a good comparison :D
Nice video 👌🏼👍🏼
@1:19 you sounded like you were talking from under the press! Squeezed but alive! LOL 😂 😂
Conclusion of this video: Jet fuel can't melt steel beams :)
Did you know you can't light propane with a lit cigarette? But when mixed with oxygen it will cut thru 6 inch solid steel with a cutting torch? Just something to think about.
that last woven structure thing you crushed is actually not intended for crushing.
it's verry strong with pulling.
I say, let them crush!..
"military grade encryption" means nothing
trabladorr ok
The way the carbon fiber peeled apart was pretty satisfying
That's unfair. Use same dimensions to compare Materials not weight.
for asking how the machine is stronger
: The machine is made to place pressure on materials or anything underneath so you can be stronger than iron if you put your weight and put too much pressure on the iron.
4:07 LMAO HAHAHAHAHAHAHA YOU MADE MY DAY xD
Small toes
Structural
This is probably the only Nord advert that I haven't skipped through. I mean it is a moot point though because I already use it.
“Iam suppriized”
Would you please repeat the test with round pipe?
I suspect that the carbon fiber binder failed right at the ends because it was open ended. If both ends were constrained in a channel, the numbers could be higher.
Try machining a groove in two steel plates to accept the ends. It should be a tight fit for best results, or use an epoxy filler.
Who came here after watching the new Dr Stone episode?