MLL752: Difference between revisions
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| credits = 3 | | credits = 3 | ||
| credit_structure = 3-0-0 | | credit_structure = 3-0-0 | ||
| pre_requisites = MLL101, MLL202, MLL251, PYL114 or some | | pre_requisites = [[MLL101]], [[MLL202]], [[MLL251]], [[PYL114]] or some | ||
| overlaps = | | overlaps = | ||
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== MLL752 : Creep and Superplasticity of Materials == | == MLL752 : Creep and Superplasticity of Materials == | ||
equivalent course in crystallography, APL104/APL105, APL108 is preferred for students from other departments, PYL701 or some introductory course in materials engineering for PG students. Phenomenology of creep, Microstructural considerations in metals, alloys, ceramics and composites, Creep mechanisms, Deformation mechanism maps, Phenomenology of superplasticity in metallic alloys, ceramics and nanophase materials, Commercial applications and considerations, Cavitation failure at elevated temperatures by the nucleation, growth and interlinkage of cavities. Sintering mechanisms. | equivalent course in crystallography, [[APL104]]/[[APL105]], [[APL108]] is preferred for students from other departments, [[PYL701]] or some introductory course in materials engineering for PG students. Phenomenology of creep, Microstructural considerations in metals, alloys, ceramics and composites, Creep mechanisms, Deformation mechanism maps, Phenomenology of superplasticity in metallic alloys, ceramics and nanophase materials, Commercial applications and considerations, Cavitation failure at elevated temperatures by the nucleation, growth and interlinkage of cavities. Sintering mechanisms. | ||
Latest revision as of 16:40, 14 April 2026
| MLL752 | |
|---|---|
| Creep and Superplasticity of Materials | |
| Credits | 3 |
| Structure | 3-0-0 |
| Pre-requisites | MLL101, MLL202, MLL251, PYL114 or some |
| Overlaps | |
MLL752 : Creep and Superplasticity of Materials
equivalent course in crystallography, APL104/APL105, APL108 is preferred for students from other departments, PYL701 or some introductory course in materials engineering for PG students. Phenomenology of creep, Microstructural considerations in metals, alloys, ceramics and composites, Creep mechanisms, Deformation mechanism maps, Phenomenology of superplasticity in metallic alloys, ceramics and nanophase materials, Commercial applications and considerations, Cavitation failure at elevated temperatures by the nucleation, growth and interlinkage of cavities. Sintering mechanisms.