you said Ceramics have a very high tensile strength in around the 11th minute in the video, how can this be when ceramics have low tensile strength because of the presence of cracks and very high compression strength. can you clarify what you meant when you said that?
These are the different phases of the steel (or Iron). Alpha is body centre cubic (BCC) and exists at lower temperatures, whereas Gamma is Austenite and is the steel phase at higher temperatures, when it turns to face centre cubic (FCC). FCC is softer and more malleable than BCC.
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Well explained 👏 many thanks 🙏
Well played, really well done and explained !
Very good document of steel microstructure tranformation.
Thank you
you said Ceramics have a very high tensile strength in around the 11th minute in the video, how can this be when ceramics have low tensile strength because of the presence of cracks and very high compression strength. can you clarify what you meant when you said that?
much better than college professors
Thankyou! Life saver
Could you tell me what the Gamma and Alpha mean when you say e.g. Alpha Fe3C + Gamma?
I love the video though. Very well explained.
These are the different phases of the steel (or Iron). Alpha is body centre cubic (BCC) and exists at lower temperatures, whereas Gamma is Austenite and is the steel phase at higher temperatures, when it turns to face centre cubic (FCC). FCC is softer and more malleable than BCC.