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07.1 Thin walled pressure vessels | types of water vessels | Baking tips and tricks
strength of materials,mechanics of materials,mechanical engineering,civil engineering,thin walled pressure vessels
#Thin #walled #pressure #vessels
07.1 Thin walled pressure vessels
Concept Introduction:
Calculate stresses in thin-walled pressure vessels
types of water vessels
Concept Introduction:
Calculate stresses in thin-walled pressure vessels
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24 Comments
How to check the Pressure vessel integrity for the ‘full vacuum’ condition of 1 bar external pressure? May you please answer this question.
If i have an air line with 100 psi going in to a vessel 1000 times the diameter of the air line, will I only have 100psi in the larger vessel.
Very clear, well done. Thanks a lot I've encountered the hoop stress concept while reading about bicycle tires but didn't know what it is, now I clearly understood the concept!
Well presented
Great explanation – thanks m8!
https://youtu.be/mSyz7FSVE1Y
The fire fighters are not a pressure vessel.
Hmmm
Very informative video. What kind of tool did you use to draw the pressure distribution diagram at 2:14 ? I would be grateful to know the tool. Thank you
You saved my ass
if hoop stress is twice as much as longitduanal, shouldn't the vessel crack in hoopwise direction rather than longwise, since hoopwise pressure is stronger?
Your voice is so obnoxious
Hello, great video! But please help me with the following question, which would be the value of p, in calculating: sigma=(p*r)/t, if i have an internal pressure Pint, and an external pressure Pext. Would p be equal to Pint-Pext (in case Pext<Pint)?
splendid lecture
A fireman… Is not… a pressure vessel… LOL, jokes aside, great video
I got an engineering job… I didnt even go to college thank you so much for allowing me to visually understand concepts…
I may not be the best at the analytical math processes behind this but it helps still!
At 2:50, shouldn’t the pressure vectors from interior walls pressure p be painting normal to the cylindrical curved surface? You showed it perfectly horizontal. ? Are you trying to say that this vectors are already the x components?
Dear Sir……….Example Problem : I have single acting a cylinder with a bore of 18 mm and a rod of 10 mm and a stroke of 300 mm. I want to know what is the pressure if my cylinder presses 10 mm ……….. Please advise and provide a solution with the formula
Thank you for your sharing, it is worth learning and reference, I hope to have the opportunity to exchange and cooperation with you
Hi 🙂 Why is it we don't include the axial stress in the hemispherical ends of the pressure vessel? Aren't these like the spherical vessel and contain their own stresses? Thank you!
It makes basic knowledge more strong. Thank you very much sir..
The fire fighters are not a pressure vessel lol. Thanks for the information. Great video!
Great
sir why the resistance force is only from the cut surface, not from the curved area?
Great Job Sir