Carbon fiber and fiberglass are not meant to be used in this type of loading. They resist _stretching_ exceptionally well. For bending or compression, use other materials.
This is a very interesting study. I was particularly surprised at the brass bar results. I honestly thought it would conform even more so than the 6061 did. Both are gummy to machine. Plus, it was stronger than carbon fiber in that perspective. Impressive! Thanks for sharing. 💪🏾💯🔥
In all seriousness, this video shows exactly which materials will give up in a catastrophic way, and which will flex - very instructive for materials selection.
There exists a myriad of alloys called brass, that contain copper (cu) and zinc (zn) as main components, but may also contain small amounts of tin, zirconium, arsenic, silicon, aluminium etc. Many cold/ heat treatments aswell. As many variaties as there are applications.
i don't. this is a very engaging video and unwelcoming. please take your false statement to a place where it would be more appropriate. The police are coming to enforce an arrest warrant about you. Count your minutes.
@@O3wormer Your unwelcome reply is unjust. My statements here are all natural responses. Where are your witnesses while no wrong was committed by TH-cam Guidelines.
Would be great to know the masses of the pieces. And cost of each piece. Than it would be not only great video, yet awsome educational nerd-style video!
I prefer a material that bends itself instead of exploding catastrophically in pieces like some submarine. Also Titanium does it at a lighter weight per volumetric unit. The only problem of Titanium is it is so expensive.
And it’s heavier. Buoyancy is also a concern. Carbon Fibre isn’t wrong. Ocean Gate just was just completely incompetent. China has a submersible that has a carbon fibre pressure hull that’s capable of 9,000m. Idk if this has been verified by anyone else. It’s not a human sub but it shows that carbon fibre has unexplored capabilities. There just needs to be billions more in R&D.
Would be neat to see the temperature of the samples as they are crushed. Tin, which has a much lower melting point, seemed more fluid as it distorted from the pressure.
Very beautiful and informative video dear. It will be extra informative if you include the fracture force vs the weight (I.e strength vs weight ratio), it will help people see why some material are chided bs other for various applications.
mungkin anda perlu menambahkan informasi berapa berat masing masing bahan sebelum dites dengan mesin hidrolik. agar rasionya juga bisa jadi informasi yang lebih bermanfaat.
Nice reminder that carbon fiber (and likely fiberglass too) only beat steel by mass and not by volume. An equal mass carbon fiber bar (much much larger) would beat steel by a fair margin, but not an equal size bar.
Fiber-reinforced composites are far more sensitive to concentrated contact stresses than isotropic materials like most rolled/extruded metal shapes. If you had placed a hard rubber pad between the press head and the specimens, then the fiberglass and carbon fiber may have withstood significantly more load. You can see that the rupture initiates near the edges of the head on both specimens. Even though the edges are radiused, they are still digging in and locally deforming, crushing the fiber matrix since the corners of the head bear all of the load once the specimen starts bowing downward.
I am not a specialist, but i highly doubt. If its bent, then its structure is altered. If you use too much energy, and the metal doesnt go back to the state you started, you got plastic damage there. That mean not elastic stress region anymore. That mean you overdid. These are bent, but now are weaker than before.
That test would strongly favor the less-dense materials due to the cubic relationship between cross section diameter and bending moment capacity. I believe the carbon fiber bar would come out on top, followed closely by fiberglass, then titanium a long way behind both, then tool steel a long way behind titanium, followed closely by acrylic, followed closely by aluminium. Yes, plastic narrowly beats aluminium, isn't that a shocker?
Well, its a good demonstration however which type of carbon fiber prepreg is used, what is the fiber volume content, how is the ply stackage, these affect the test conclusions radically. I believe plies are tape and only oriented at longitudinal direction which makes this specimen incredibly strong at tensile stresses but weak at shear stresses in which specimens are subjected in this test. To wrap it up, if +45/-45 oriented plies are used at a proper amount we would have been seeing a lot a lot more resistance just so you know :) still very good video 👍🏻
Also the grade in Titanium. I know it had a high yield, but that was impressive. I'm a machinist, so I kinda knew what to expect what to expect. Edit: Just noticed that the V-Block gave.
I would like to see fiberglass layered with bamboo but compress the bamboo first to get it supper thin then over lap them using fiber glass do like a 2x4 with it see how strong it is .
اسهل 6 طرق لكسب الثواب بعد الموت : 1- اترك نسخه للقرآن الكريم في أي مسجد. 2- تبرع بكرسي متحرك في أي مستشفي. 3- شارك في بناء مسجد بما يقدرك الله. 4- ضع مبرد في مكان عام. 5- ازرع شجرة ولك اجر من استظل بها. 6- علم أحد دعاء أو ذكر او اية. والأسهل من هذا كله نشر هذه الرسالة . (ربي اغفر لي وتب علي أنك أنت التواب الرحيم. ) صلي على النبي ♥️🌹٠
Carbon fiber and fiberglass are not meant to be used in this type of loading. They resist _stretching_ exceptionally well. For bending or compression, use other materials.
Exactly, there meant for rigidity and weight saving over load strength.
I was amazed at how ductile titanium was.
I got curious to see the forged carbon fiber against regular one, it’s supposed to be much better in such applications.
Did you know carbon fiber can hold up against lava.
🤓☝️
I like seeing the difference in "it failed, but it's still very strong" vs "it failed and it's done now"
People like different things
That’s what we call brittle and ductile 😂
Its called residual resistance
That High-speed steel turned into "high-speed projectile."
Remember kids, do not make your own submarines from carbon fiber at home!
bruh
pauahahhshahhc
too late, gonna take it to the Titanic tomorrow. Nobody is going to stop me.
Jajajaja ok!
@@benjaminaebersold7488 😂 Hells Gate?
Thank you for the warning😮. I almost brought my hydraulic press home to crush some titanium! Scary.... 😨
🫨🫨
This is a very interesting study. I was particularly surprised at the brass bar results. I honestly thought it would conform even more so than the 6061 did. Both are gummy to machine. Plus, it was stronger than carbon fiber in that perspective. Impressive! Thanks for sharing. 💪🏾💯🔥
Do not repeat at home I have hydraulic press at home 😂😂😂
Me too 😅
😂😂😂😂😂😂
@@MCWR32and who doesn't? 😂
@@ttomas6254me and like 1 billion other people
and the hydraulic machine on my dad's pocket 😢😂😂
I'm just gonna say this: the acrylic did a whole lot better than I thought it would.
Stockton would have LOVED the sound of that carbon fiber snapping. Too soon? Great video!
In all seriousness, this video shows exactly which materials will give up in a catastrophic way, and which will flex - very instructive for materials selection.
You be as serious as you want. I'll spend my life having fun with idiots.@@mufflejoy
You be serious! I will have fun. Bye!@@mufflejoy
@@DonnyHooterHoot Ehm, OK I guess. See you at the bottom then.
Ever since that one thing happened back then.. Every time i hear the word carbon fiber i think of Stockton Lol
Timestamps:
- First Part:
0:48 - Acryllic
1:19 - Fiberglass
2:12 - Aluminum 6061
3:10- Carbonfiber
3:56 - Brass
4:39 - Titanium
5:46 - High-Speed Steel (HSS)
- Second Part Will Be Soon:
COMING SOON
I didn’t understand a word of this, but somehow I feel smarter just for watching it. Is that how science works?
I love the warning don’t try this at home, but how many of us have a hydraulic press?
its so youtube doesnt take down the video
@@tomichuswhat?
Don't use carbon Fiber as a stair if you have a fat chick is basically the message
at least 40
I have my stone hydraulic press 😂
Titanium so much strength
It would be fun to show the weight of each. Also it would be interesting to see the force it takes to get each to a certain amount of deflection.
2:40 cool beat
I was surprised that the brass fractured. I was definitely expecting it to bend and not break. Very interesting.
As someone who has worked with brass it is often surprising brittle.
I expected the fracture. Brass is a powder metal alloy. The structure is not as consistent as aluminum.
There exists a myriad of alloys called brass, that contain copper (cu) and zinc (zn) as main components, but may also contain small amounts of tin, zirconium, arsenic, silicon, aluminium etc. Many cold/ heat treatments aswell. As many variaties as there are applications.
Both alloy brass and steel broken apart🤔 must have something to do with molecular binding
It's supposed to be considerably malleable atleast.
I like how you say nothing and let the screen words do all the talking in your show. 💯
i don't. this is a very engaging video and unwelcoming. please take your false statement to a place where it would be more appropriate. The police are coming to enforce an arrest warrant about you. Count your minutes.
@@O3wormer Your unwelcome reply is unjust. My statements here are all natural responses. Where are your witnesses while no wrong was committed by TH-cam Guidelines.
@@rudytoth I AM NOT HAPPY WITH YOU I WILL REPOTRt YOU TH-cam YOU WILL BAN NO OWRM WOMR NO YOUGET NO WORMS
beautiful vid !!! I was more impressed with the fiberglass than the carbon fiber 🤔...just to be otherwise
I'm actually pretty shocked by these comparisons, great video.
Would be great to know the masses of the pieces. And cost of each piece. Than it would be not only great video, yet awsome educational nerd-style video!
1:27 wear a mask when working with fiberglass
High speed steel alloys can beat titanium but they are a lot heavier, as well!
But the same dimensions, i think that was pure titanium not titanium alloy
it seems to me that it wasn't titanium but some kind of steel. Titanium doesn't have such scale on the surface as this piece of rod
Oh I gotta try this at home because I saw this on TH-cam!! 🤣🤣🤣🤣
6:34 that high speed steel was pretty quick 😂
Wow, that was interesting!
0:01 thank you! I won’t use my hydraulic press in my room at home!
I prefer a material that bends itself instead of exploding catastrophically in pieces like some submarine. Also Titanium does it at a lighter weight per volumetric unit. The only problem of Titanium is it is so expensive.
And it’s heavier. Buoyancy is also a concern. Carbon Fibre isn’t wrong. Ocean Gate just was just completely incompetent. China has a submersible that has a carbon fibre pressure hull that’s capable of 9,000m. Idk if this has been verified by anyone else. It’s not a human sub but it shows that carbon fibre has unexplored capabilities. There just needs to be billions more in R&D.
Would be neat to see the temperature of the samples as they are crushed. Tin, which has a much lower melting point, seemed more fluid as it distorted from the pressure.
Very beautiful and informative video dear. It will be extra informative if you include the fracture force vs the weight (I.e strength vs weight ratio), it will help people see why some material are chided bs other for various applications.
3:10 " might be, this is what you came for..." Is a nice song though.
Excellent, thank you.
mungkin anda perlu menambahkan informasi berapa berat masing masing bahan sebelum dites dengan mesin hidrolik. agar rasionya juga bisa jadi informasi yang lebih bermanfaat.
Bro try to show weight also... It will be fun to see same size materials with different weights
Nice reminder that carbon fiber (and likely fiberglass too) only beat steel by mass and not by volume. An equal mass carbon fiber bar (much much larger) would beat steel by a fair margin, but not an equal size bar.
5:01 wow nice music 🎵
I know it would be expensive experiment but also it would be awesome when you could include diamond and gold in the experiment.
so are you testing the tensile strength of carbon fiber or is it a different term used? id think its tensile strength, tell me if im wrong
Nice video.
5:03 sounds like it's playing some music
lol 😂
Any transparent aluminum
From here I can hear indian drum music 2:23
South Indian
@@ShashiKD17still Indian ❤
6:20 newton is right
Fiber-reinforced composites are far more sensitive to concentrated contact stresses than isotropic materials like most rolled/extruded metal shapes. If you had placed a hard rubber pad between the press head and the specimens, then the fiberglass and carbon fiber may have withstood significantly more load. You can see that the rupture initiates near the edges of the head on both specimens. Even though the edges are radiused, they are still digging in and locally deforming, crushing the fiber matrix since the corners of the head bear all of the load once the specimen starts bowing downward.
Machine sound has a vibe 😂i am dancing on it
😂exactly man
The structural integrity of aluminum and titanium was not compromised. So they were not broken. They just bent.
I am not a specialist, but i highly doubt. If its bent, then its structure is altered. If you use too much energy, and the metal doesnt go back to the state you started, you got plastic damage there. That mean not elastic stress region anymore. That mean you overdid. These are bent, but now are weaker than before.
what the video says, Do not repeat at home.
What I see, repeat it in your house. xD!
Very amazing
What's the material of the press itself?
Hardened steel.
@@bensemusx or some hardened iron
Very interesting. It would also be vey interesting if you could repeat this test with these materials in different cross section but equal weight.
That test would strongly favor the less-dense materials due to the cubic relationship between cross section diameter and bending moment capacity. I believe the carbon fiber bar would come out on top, followed closely by fiberglass, then titanium a long way behind both, then tool steel a long way behind titanium, followed closely by acrylic, followed closely by aluminium. Yes, plastic narrowly beats aluminium, isn't that a shocker?
The brass bar would be a lot weaker than the aluminium because it would be at such a disadvantage in area moment of inertia.
Do you use the same load cell for all of the tests or do you use an appropriate load cell for the amount of force expected?
Well, its a good demonstration however which type of carbon fiber prepreg is used, what is the fiber volume content, how is the ply stackage, these affect the test conclusions radically. I believe plies are tape and only oriented at longitudinal direction which makes this specimen incredibly strong at tensile stresses but weak at shear stresses in which specimens are subjected in this test. To wrap it up, if +45/-45 oriented plies are used at a proper amount we would have been seeing a lot a lot more resistance just so you know :) still very good video 👍🏻
I was waiting for titanium because iPhone user 😂
Curious which heat treatment the 6061 AL was. T4, T6 or ?
Also would like to see mild steel in the mix as well.
Also the grade in Titanium. I know it had a high yield, but that was impressive. I'm a machinist, so I kinda knew what to expect what to expect.
Edit: Just noticed that the V-Block gave.
I wanna know grades too about aluminium am titanium
I would like to see fiberglass layered with bamboo but compress the bamboo first to get it supper thin then over lap them using fiber glass do like a 2x4 with it see how strong it is .
Tata ritorna!!! Io ai miei tempi lo facevo con le mani
Very cool thanks
4:50 here the music starts , lets dance😂
0:00 i dont have any hydraulic press or titanium or carbon fiber blocks casually sitting around
'Do not repeat at home' like I have hydraulic press
It would be interesting to see the temperature displayed.
I wonder what made this compressor
Remember guys, don't put your iPhone 15 Pro Max under a Hydraulic Press.
De la merde
tech yt channels:
Who else was grooving to the beat that machine made 😮
I would love to see an Inconel in this test.
and I have always thought that titanium is more resistant than steel. thank you youtube for this info
Well, per mass it is.
Great video 👍🏽👍🏽👍🏽
it is of course reminiscent of the Terminator, the music :D
If Oceangate had used Brass _Stocky_ might still be here!
It is even worse, carbon fiber is one of those rare materials that isn't strong under compression.
I would be happy if you can compare steel at diferents temperatures from 0 to 600 C. Is it possible??
what was the condition of the high speed steel was it normalized or was it hardened
Based on its properties Titanium is #1
Try uranium rod next
Graphene qube please
Would like to watch it with thermal screen, it will be interesting to know which part of the metal gets hot during hydraulic press
What were the weights of the samples?
هنا يتحقق قوله تعالى ((و أنزلنا الحديد فيه بأس شديد و منافع للناس ))
what was the weight to strength ratio of the bars?
What were their weights?
5.05 the sound was amazing
Curious about graphene
What material is the machine made of? Is it tungsten?
اسهل 6 طرق لكسب الثواب بعد الموت :
1- اترك نسخه للقرآن الكريم في أي مسجد.
2- تبرع بكرسي متحرك في أي مستشفي.
3- شارك في بناء مسجد بما يقدرك الله.
4- ضع مبرد في مكان عام.
5- ازرع شجرة ولك اجر من استظل بها.
6- علم أحد دعاء أو ذكر او اية. والأسهل من هذا كله نشر هذه الرسالة . (ربي اغفر لي وتب علي أنك أنت التواب الرحيم. ) صلي على النبي ♥️🌹٠
It would be interresting to measure the weight of each material
Its easy to calculate
Why ?????
Please test adamantium & vibranium.
Nice titanium boomerang
10:23 You can clearly see that because metals heat up when you shape them, the tin started to sweat!
When it comes to Airplanes, titanium is the best to use for aircraft structural. Because they are light weight yet very strong.
Do not repeat at home what you saw in this video 😂
Sh**t I’ll have to send back that massive hydraulic press I just ordered from Amazon
Can you do the adamantium test?
Can you a weaver carbon fiber piece and test it ?
What you might have came gere for 3:10 carvon fiber....1:12 fiber glass😊
"Do not try this at home!"
Sure, anyone has a hydraulic press in his basement 😂
Good
Thank you, what's the density and weight of each material?
THAT LOOKS FUN I SHOUL BUILD A SUBMARINE OF THIS
Puh thanks god for the warning I almost wanted to make a Submarine out of it
Semua bahan berbeza.. wow
You should show the weight of each sample..
Eu fechando o olho pensando que vai pegar em mim 😅🤦🏽♂️
😂😂😂😂😂
Gracias brass por enderezar la base 🙏