Thin-Walled PRESSURE VESSELS in 8 MINUTES - Mechanics of Materials

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Less Boring Lectures

Less Boring Lectures

Күн бұрын

Пікірлер: 40
@JesusMartinez-zu3xl
@JesusMartinez-zu3xl Жыл бұрын
Thank you!! you literally explained this concept way better than a hour lecture.
@sefofiwilliamlebea4071
@sefofiwilliamlebea4071 Жыл бұрын
I can't believe how well this 10 minutes video has prepared me for my Structural Mechanics test
@pmarkpmark
@pmarkpmark 2 жыл бұрын
This is best mechanics of materials video ever!
@stevengarcia7965
@stevengarcia7965 3 жыл бұрын
short and concise thanks!
@osamakhattab5306
@osamakhattab5306 3 жыл бұрын
Impressive Explanation& Animation
@pandianshanthakumar4163
@pandianshanthakumar4163 2 жыл бұрын
Great video.. with simple examples..and clear cut explanations. Thanks a lot .....
@vishalsejpal6018
@vishalsejpal6018 Жыл бұрын
Thank you so much man. This was really great . Cant thank you enough
@ray420_mond
@ray420_mond 11 ай бұрын
Very good explanation
@zarapiryaei5569
@zarapiryaei5569 3 жыл бұрын
This channel is amazing 🤩 Thank you so much 🙏🏻
@LessBoringLectures
@LessBoringLectures 3 жыл бұрын
Glad you enjoy it!
@enesaktas42
@enesaktas42 3 жыл бұрын
Its terse video. Thanks for that good expression
@asseilalhlafi128
@asseilalhlafi128 Жыл бұрын
Thanks a lot , really an amazing explanation ( short and nice representation )
@TIAGONICOLASSALCOVICH
@TIAGONICOLASSALCOVICH 5 ай бұрын
Awesome video. I wonder, what happens with sigma_r, the radial sigma, isn't there a non-zero value of p in the internal diameter? Thx
@AmrGamal-j9f
@AmrGamal-j9f Жыл бұрын
could you tell me what is that application that you use when doing such a video
@MK-fq3fk
@MK-fq3fk 6 ай бұрын
Great video.thanks
@vincentmarotta9800
@vincentmarotta9800 5 ай бұрын
Question with respects to the solved answer: Why is σ2 ("Axial Stress") considered the maximum stress, specifically? Like ok, I understand the Moor's Circle and the graph shows us when you take in to account all three stresses (σ1, σ2, σ3=0), the maximum shear stress (Τmax) is equal to σ2, but WHY is this the most significant factor with respects to calculating shear stress? I'm guessing something physically is happening to this structure where the axial stress is somehow the weakest factor, but the only thing I can guess is "σ2 has the lowest number, and therefore less stress will cause it to break. This doesn't apply to σ3 because even though we defined σ3=0, it doesn't imply it needs 0 MPa force to break the vessel, but rather, σ3 doesn't play a factor with respects to the forces applied." Otherwise, it appears when calculating for any shape, the σ value that has the SMALLEST value (other than σ3=0 which we ignore for some reason) will result in the weakest force to break the structure. And to comment on the FOS to justify it: All this is saying is if you want to be CAUTIOUS and design the structure to not fail, having a factor of safety ratio of FOS = 2.94 should be "safe enough." I guess you could look at FOS as a way to determine/justify how "safe" a particular design is. It appears a very low FOS is dangerous, and as per MOST standard, a FOS near or at 3.0 is ideal (aka: "You should design your vessel to withstand 3x the force the material can handle before breaking). So what is considered "too low" in the real world? Each material has its own standards, but it seems most are around something like 1.4 as the bare minimum, but also super risky. Not a question involving FOS, just trying to justify its holistic existence. Thanks you for these videos. You're actually taking information and justifying it, showing examples and what geometry each piece specifically applies to, and that's more than what most doctorate-level professors attempt.
@taijmohabeer4515
@taijmohabeer4515 5 ай бұрын
Heya, loved the vid, but please do tell what drawing program you use. Thanks in advance
@zepnr4741
@zepnr4741 Жыл бұрын
Thank you
@michaelmcleary8566
@michaelmcleary8566 2 жыл бұрын
I can't normally cope with AI voice overs but this is a good presentation. The complete lack of background music is a BIG plus. I'll check out your channel.
@usmanzafar7293
@usmanzafar7293 Жыл бұрын
Excellent videoS
@arthuradeodato4774
@arthuradeodato4774 2 жыл бұрын
Congratulations for your job. Amazing video. May I ask you what software did you use to draw this class ? Thanks a lot.
@abhijust321
@abhijust321 Жыл бұрын
What should be done if we have watwr proof camera capsules for depth of water(submersible), are this equation still valid, say if my capsule is at depth of 4000m under water and it's cylindrical with 2 hemispherical flanged and sealed ends. So should we take ultimate compression strength of steel for Design and pressure will be from reverse direction?
@ceeceeceek
@ceeceeceek Жыл бұрын
if it’s pipe with open-ended, does it have longitudinal stress?
@ayushchoubey635
@ayushchoubey635 10 ай бұрын
Thanks alot !
@ayushchoubey635
@ayushchoubey635 10 ай бұрын
Your precise and concise videos are very awesome
@BenitoRondilla
@BenitoRondilla 11 ай бұрын
What about the maximum shearing stress in the spherical?
@azeez6081
@azeez6081 2 жыл бұрын
brother i want to know how we can calculate thickness which is subjected to transverse UDL loading.. how can we calculate the thickness of end flange of hydraulic cylinder..
@BenHeacox
@BenHeacox 5 ай бұрын
@2:02 When I distribute the 2 on the right side of the equal sign, i get 2 * delta Z. Is that correct? I feel like I am doing something wrong because I can't get from p ( 2r * delta Z) = sigma * 2 (t * delta Z) to sigma =( p * r ) / t
@itzmecyber
@itzmecyber Ай бұрын
You shouldnt distribute. It should just become 2*t* Δz Thereafter divide both sides by 2*t* Δz p * 2 * r * Δz 2 *t * Δz 2 and Δz cancel which just leaves p*r/t= σ
@BenHeacox
@BenHeacox Ай бұрын
@@itzmecyber Ope. Yep can't distribute to a delta. Thanks!
@baristhegreat
@baristhegreat 2 жыл бұрын
best.
@abdullahalrashed7301
@abdullahalrashed7301 3 жыл бұрын
It has a pretty good explanation with imaginable Diagram. but you need to slow down a bit❤️
@michaelmcleary8566
@michaelmcleary8566 2 жыл бұрын
You can adjust the speed yourself if you wish from the 'settings' button in the toolbar.
@HarshaVardhan-jq4lp
@HarshaVardhan-jq4lp 3 жыл бұрын
Bro a kind request Can u upload for thick cylinders too 😀
@rutho.6282
@rutho.6282 2 жыл бұрын
grazie
@mengeshashiferaw1809
@mengeshashiferaw1809 9 ай бұрын
great
@glaynrifans4474
@glaynrifans4474 Жыл бұрын
Why Rad stress is zero?
@Upendra.Bhattarai
@Upendra.Bhattarai 2 ай бұрын
Introduction and characteristics
@PortiaBorngreat
@PortiaBorngreat 2 жыл бұрын
Great video but can it slow down a bit
@sanjaysharma-sj7fj
@sanjaysharma-sj7fj Жыл бұрын
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