MLL750: Difference between revisions
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| credits = 3 | | credits = 3 | ||
| credit_structure = 3-0-0 | | credit_structure = 3-0-0 | ||
| pre_requisites = MLL100 or some equivalent basic course in | | pre_requisites = [[MLL100]] or some equivalent basic course in | ||
| overlaps = | | overlaps = | ||
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== MLL750 : Imperfections in Materials and Applications == | == MLL750 : Imperfections in Materials and Applications == | ||
materials engineering or MLL101, MLL202, APL108, APL104 and MLL251 (for UG programme), CLL732, CML681, CML729, ELL211, PYL114 or some equivalent courses on crystal structures and thermodynamics. Thermodynamics of point defects (vacancies and interstitials) in metals and ceramics, defect chemistry, diffusion, electronic properties and applications, geometrical aspects of dislocations, Volterra and atomistic models, stress fields and energy of dislocations, forces on dislocations, dislocation motion and slip, stacking faults and APBs, dislocations in FCC and BCC metals, Strengthening of alloys via dislocations and its applications, thermodynamics of interfaces, Gibbs-Thompson effect, segregation, anisotropy of surface energy, equilibrium shape of crystals, geometry of grain boundaries, high and low angle boundaries, special and general boundaries, effect of grain boundary character on properties. | materials engineering or [[MLL101]], [[MLL202]], [[APL108]], [[APL104]] and [[MLL251]] (for UG programme), [[CLL732]], [[CML681]], [[CML729]], [[ELL211]], [[PYL114]] or some equivalent courses on crystal structures and thermodynamics. Thermodynamics of point defects (vacancies and interstitials) in metals and ceramics, defect chemistry, diffusion, electronic properties and applications, geometrical aspects of dislocations, Volterra and atomistic models, stress fields and energy of dislocations, forces on dislocations, dislocation motion and slip, stacking faults and APBs, dislocations in FCC and BCC metals, Strengthening of alloys via dislocations and its applications, thermodynamics of interfaces, Gibbs-Thompson effect, segregation, anisotropy of surface energy, equilibrium shape of crystals, geometry of grain boundaries, high and low angle boundaries, special and general boundaries, effect of grain boundary character on properties. | ||
Latest revision as of 16:40, 14 April 2026
| MLL750 | |
|---|---|
| Imperfections in Materials and Applications | |
| Credits | 3 |
| Structure | 3-0-0 |
| Pre-requisites | MLL100 or some equivalent basic course in |
| Overlaps | |
MLL750 : Imperfections in Materials and Applications
materials engineering or MLL101, MLL202, APL108, APL104 and MLL251 (for UG programme), CLL732, CML681, CML729, ELL211, PYL114 or some equivalent courses on crystal structures and thermodynamics. Thermodynamics of point defects (vacancies and interstitials) in metals and ceramics, defect chemistry, diffusion, electronic properties and applications, geometrical aspects of dislocations, Volterra and atomistic models, stress fields and energy of dislocations, forces on dislocations, dislocation motion and slip, stacking faults and APBs, dislocations in FCC and BCC metals, Strengthening of alloys via dislocations and its applications, thermodynamics of interfaces, Gibbs-Thompson effect, segregation, anisotropy of surface energy, equilibrium shape of crystals, geometry of grain boundaries, high and low angle boundaries, special and general boundaries, effect of grain boundary character on properties.