This is one of coolest phase diagram microstructure lean ‘lets call it Student Friendly’ explanation around all written and internet resources. thank you for your efforts 🎉
Many things can influence microstructure. Temperature gradient can produce elongated grains that grow along the thermal axis. But in general these phase diagram cooling curves are a good starting point for a possible grain structure
This is one of coolest phase diagram microstructure lean ‘lets call it Student Friendly’ explanation around all written and internet resources. thank you for your efforts 🎉
@@cemuluc3495 thank you!!! I'm so glad it's helpful
at 7:50 i think your weight percent calculation is wrong,it should be 36% right
Thanks to you, I understood the subjects that I did not understand at university.
Glad to help. Better late than never.
Ah ah, I wish I had discovered this channel before the exams.
Does the microstructure you draw also look the same on any other alloys experiencing slow cooling?
Many things can influence microstructure. Temperature gradient can produce elongated grains that grow along the thermal axis. But in general these phase diagram cooling curves are a good starting point for a possible grain structure
So basically shape sizes don’t matter as long as amount of liquid or amount of solid is indicated right?
Correct, those are kinetics questions that lever rule won't cover.
I think theres an error in ur mats for wt% fraction for alpha, please cross check
for the top, 35-31 is 4, then for the bottom 42-31 is 11, 4 / 11 is 0.36 so isn't that 36%?
Is your course equal to material sciences 101?
Yup! I think you'll really enjoy it. I have a playlist for intro to material science on my channel that you can check out
How you get 8g 8:10