Many many thanks for your lecture, I am looking forward to watching future videos, all are the most important topics that I need to learn. Thanks a lot!
@8:20, Dear professor I would like to make a little correction that the turbine blade length is of the order of tens of centimetres and those are made of single cystles so as to minimise creep. (you may perfrom EBSD / Tex XRD at their root , mid and tip)
Many many thanks for your lecture! Looking forward to the next one of the series . Or, can you give us a reference books which is best for beginners? Thank you a lot! Wish you good health and all the best!
Wonderful presentation! simply explained difficult issues. Highly recommended for those individuals interested in the topic
Glad you liked it!
Many many thanks for your lecture, I am looking forward to watching future videos, all are the most important topics that I need to learn. Thanks a lot!
Glad to hear that! :)
Nice video. Looking forward to videos about "physics based" models.
Thank you.
Thanks for your explanation, looking forward to next video!
Thanks for watching!
Very nicely explained.. Thanks
Thanks and welcome
Great effort and very clear and consise information on the topic where not much info is available. Thanks a lot. GOD bless
You are most welcome
@8:20, Dear professor I would like to make a little correction that the turbine blade length is of the order of tens of centimetres and those are made of single cystles so as to minimise creep. (you may perfrom EBSD / Tex XRD at their root , mid and tip)
Well explained sir, I think what you are referring as pole figure is kikuchi patterns.
Thank you for the correction. Yes, you are right.
Very clear, thanks a lot for the great effort!
You are welcome!
Very decent video! Looking forward to the next one of the series
Thanks a ton!
Well explained ! Thank you .
Many many thanks for your lecture!
Looking forward to the next one of the series
.
Or, can you give us a reference books which is best for beginners?
Thank you a lot!
Wish you good health and all the best!
Thank you for nice comment. There is one book on CPFEM named "Crystal Plasticity Finite Element Methods: In Materials Science and Engineering"
@@NotRealEngineering thank you very much!
@@NotRealEngineering Sir can you post the teaching videos about RVE Crystal Plasticity in Abaqus? It can be great helpful for us!
Sir atex software can be used for crystal plasticity simulation??
I don't think so. I never personally used it for that
You are the best!
Thank you very much Saham.
during deformation, how to analysis electric properties for rubber in abaqus but rubber has carbon black for improve the electric properties
Sorry, unfortunately I am not an expert in electric properties analysis.
very helpful!!thanks
Glad it was helpful!
Do u have Tutorials of CPFEM in Abaqus?
Yes, you can check on channel page.
@@NotRealEngineering thank you