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Thank you. Finally somebody explains how it correlates to if you have a material yield stress value.

Thankssss😮👍

So, the dislocation creep is function of stress power (3-8) and diffusion is varying linearly with stress 👍🏻

really great explanations! Thank you A LOT!

Yeah science bitch

😊😊

Quality content, subscribed

came here to support the learning module Material Science an Sustainability (MSS Module) by Marina Mokhtar 2024 🎉

Hi, I would like to consult whether creep belongs to plastic deformation or viscoelastic deformation?

clear explanation!

Nice explanation

Thank you. It was really helpful.

good one Megan

holy shit, thank you

Where is the solution of example?

Can you please tell me how to take this MSE 312 course?

Great explanation!

Thanks. It was very helpful🧡.

Very nicely explained

Looks like a part of lecture with a lot of missing links, definitions and explanations. Typical case when engineers are going to get into math which they use " just because that's how they were taught"

I Finally get it thanks, understanding should help my rocket motor from exploding.🙂👍

Thanks!

Very well explained, Thanks!

great

You helped me to understand , thank you

You're a queen! Amazing explanation

You are saying that we can do the same for non ideal gas but do we agree that your expressions are not complete in the case of non ideal gas?

what about Joule-Thomson effect?

Nicely explained . Thank you!

At minute 9.30 you add a constant for plane strain. If I were to do the opposite, (1) to go from plane strain to plane stress, would it be only necessary to multiply by such constant rather than dividing as you did? (2) In this case, the constant is not representing confinment in the direction of thickness but what is it representing now?

Very good video :P

this is why i use wraps during squats

Hello, thank you very much for the explanation!! I did nanoidentation on a same photoresist (CAR) with 3 different layer thicknesses (4.5um, 5.2um and 6.5um) with a penetration depth of 500nn. i'v come to the conclusion that when the thickness of the photo resist is bigger, then the foto resist is harder. Do you have an idea why?? Thank you very much!!!

7:50 should be "molecules", not 'atoms". In a (non-metallic) solid, the bonds between the *molecules* (intermolecular forces) are what make a solid a solid; the covalent bonds between the *atoms* hold a given molecule together, but have nothing to do with the state of matter. It is the bonds that attract one molecule to another molecule that dictate the state of matter.

great video! I have one question. How can I find a material constant like B in a power-law equation?

2:11 Why is the crack dimension "4a"?

Thank you 😍

love the vid but how did you get 250MPa did you use the yield strength and divided it by the safety factor of 2? please let me know I just need a confirmation.

Wow

Hi Dr Megan. What book can I use for this content?

Ma'am I can't thank you enough. I even asked my sir and he gave such a shitty answer. You're an angel.

This is Akshat from India... Love the way you teach

I was very impressed, I’m certainly in university taking my second degree, in engineering. Thank you, very informative.

wonderful explanation very impressive Thank you mam

Very good❤ Gros bssoulove🌻 "Loves your Com"💕

thank you I love how simple you made for this lesson

Very informative video. Thanks for sharing.

thanks God!

This video helped me a lot, thanks for your lecture!

You, Saved my life...