Thank a lot Sir making this difficult topic is like " Piece of Cake " for us...Hats off to your teaching it is indeed paving my way in my teaching profession..
Thank you Sir for making these videos. I have a doubt, why all these creep mechanisms appear more like temperature-dependent mechanisms instead of "time" dependent mechanisms as suggested by creep definition?
This is indeed a good question. I have used a simpler form of mechanism map by M.F. Ashby. This was first proposed by him in M.F. Ashby, "A First Report on Deformation Mechanism Maps", Acta Metallurgica, Vol 20, Issue 7, July 1972, Pages 887-897. This is also described in his book. This is also described in his book M.F. Ashby and DRH Jones, Engineering Materials: An Introduction to Their Properties and Applications. However, he has not included GBS in his figure. I simply followed him because I did not pay attention to. Your question forced me to look up literature where I find that, later, other workers have proposed maps that include GBS: H. Luthy, R.A. White and O. D. Sherby, "Grain Boundary Sliding and Deformation Mechanism Maps", Materials Science and Engineering, Volume 39, 1979, 211-216. Thanks for asking.
Sir, why does dislocation bowing not taking place here ie kindly tell that when does cross slip takes place or climb takes place and when dislocation bowing takes place #Rajesh Prasad introduction to material science and Engineering
@@rajeshprasadlectures one last request sir kindly make course on topic like welding or metal cutting and machining, so that underprivileged students like me , who are preparing for various exams like ese get benefitted, in the same way as material science Thanks a lot sir.
You were born to be an excellent teacher! Any difficult subjects become quiet easy to understand with your explanation!
dear professor, i enjoyed learning through your lectures. thanks for your effott. from psg tech
Thank you professor. Your lectures are quite helpful for me as a beginner in material science!
you're so good at explaining things. thank you. 😭
Huge respect sir! phenomenal work you are doing.
Loved this. Really well described.
Sir, I am big fan of yours, I like the way you deliver lectures....respect!
Thank a lot Sir making this difficult topic is like " Piece of Cake " for us...Hats off to your teaching it is indeed paving my way in my teaching profession..
I regret watching your videos, 1 week before my exam, should have started a month ago.
Too good sir, thank you soo much 😄
Such poise and clarity! Thanks for the knowledge sharing sir. Wish u do more videos on other engineering disciplines as well.
Sir the way you have explained to us was really very helpful for everyone .Thankyou sir and Thankyou so much for sharing such a good knowledge with us
Thank you so much Sir!!
I have covered all your lecture of MBM.
and understood easily . Good explanation.
Thankyou!!😊
Very good sir. Your teaching art is excellent.
Thank you sirrr,, this is so helpful for my finals
great Sir,
understood easily because your way of teaching is awesome---From University of Toronto
I really understood the subject. Thanks sir
Press 1 a couple of times, it will make you day. Sounds like yoshi :)
sir u taught very well. thanks sir
Sir...thank you for your effort ❤️
Thank you Sir for making these videos. I have a doubt, why all these creep mechanisms appear more like temperature-dependent mechanisms instead of "time" dependent mechanisms as suggested by creep definition?
Also, if there is any role of temperature in cross slip, and what is the criteria for the cross slip to occur?
Excellent lecture!
Thank u sir for ur excellent explanation ❤️
Hi sir. Why gb sliding mentioned is not mentioned in the plot, in which region it will occur?
This is indeed a good question. I have used a simpler form of mechanism map by M.F. Ashby. This was first proposed by him in
M.F. Ashby, "A First Report on Deformation Mechanism Maps", Acta Metallurgica, Vol 20, Issue 7, July 1972, Pages 887-897. This is also described in his book. This is also described in his book
M.F. Ashby and DRH Jones, Engineering Materials: An Introduction to Their Properties and Applications.
However, he has not included GBS in his figure. I simply followed him because I did not pay attention to.
Your question forced me to look up literature where I find that, later, other workers have proposed maps that include GBS:
H. Luthy, R.A. White and O. D. Sherby, "Grain Boundary Sliding and Deformation Mechanism Maps", Materials Science and Engineering, Volume 39, 1979, 211-216.
Thanks for asking.
Thank you sir for all lectures
sir can you explain why coarse grain structure is required for high creep resistance
Grain boundary sliding is reduced. Also diffusion distance increases.
Sir, Good morning 🌞
Where can I get peierls and Navarro related stress topic.
Thank you Sir.
Sir please explain why grain boundaries become weaker than grains at higher temperatures?
Sir, where should be coble creep in the map? It happens at low temperature
Sir, why does dislocation bowing not taking place here ie kindly tell that when does cross slip takes place or climb takes place and when dislocation bowing takes place #Rajesh Prasad introduction to material science and Engineering
Each mechanism requires its own stress. The one requiring minimum stress will operate.
@@rajeshprasadlectures sir does dislocation bowing takes place in case of screw dislocation
@@rajeshprasadlectures many thanks sir
@@letslearnmechanicalengineering It is possible for screw dislocation as well.
@@rajeshprasadlectures one last request sir kindly make course on topic like welding or metal cutting and machining, so that underprivileged students like me , who are preparing for various exams like ese get benefitted, in the same way as material science
Thanks a lot sir.
thank you sir
SIr you are good teacher jealous down
Perfect
Sajith Premadasa moda buruwek ! Manusha Nanayakakara aye poster gahai da danne na puka hodamu kiyala :D :D
Could you please translate it for me.