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Phase Diagrams in Materials Science and Engineering
Online
12 Weeks
Free Quick Facts
| Medium Of Instructions | Mode Of Learning | Mode Of Delivery |
|---|---|---|
| English | Self Study | Video and Text Based |
Courses and Certificate Fees
| Fees Informations | Certificate Availability | Certificate Providing Authority |
|---|---|---|
| INR 1000 | yes | IIT Kanpur |
The Syllabus
- Lecture 1: Phase rule, lever rule, Free energy of phase mixture
- Lecture 2 : Unary systems, Effect of pressure on phase diagrams
- Lecture 3: Binary Isomorophous Systems, Free energy-composition digrams,
- Lecture 4 : Equilibrium solidification, Non- Equilibrium solidification of alloys ,
- Lecture 5: Coring, examples from Cu-Ni alloys, Zone refining
- Lecture 6: Phase Diagrams of Binary Eutectic systems
- Lecture 7: Solidification of eutectic, hypo-eutectic, and hyper-eutectic alloys and theirmorphologies with examples from Al-Si, Fe-C, Ag-Cu, Pb-Sn systems
- Lecture 8: Phase diagrams of binary peritectic System, evolution of these phase diagrams
- Lecture 9 : Solidification of peritectic alloys,
- Lecture 10 : hypo and hyper-peritectic alloys; Morphologies
- Lecture 11: Concept of Liquid Phase immiscibility Binary Monotectic and Systectic Systems
- Lecture 12: Evolution of monotectic and syntactic phase diagrams, free –energy composition diagrams,
- Lecture 13: Development of microstructures in systems Cu-Pb, Na-Zn, K-Zn, Effect of gravity on solidification of these alloys
- Lecture 14: Concept of solid state immicibility and spinodal decompositions,
- Lecture 15: Phase diagrams showing spinodal decomposition, microstrucural evolution
- Lecture 16: Thermodynamics of phase equilibria: Regular and irregular solutions
- Lecture 17: Models for regular and irregular solutions
- Lecture 18: Quasichemical theory : detailed descriptions
- Lecture 19 : Stability of regular solution and miscibility gap,
- Lecture 20- 21: Application of Quaichemical to eutectic, peritectic
- Lecture 22 : and Monotectic systems, intrinsic stability of solution and spinodal.
- Lecture 23: Theory of alloy Phases: Hume-Rothery rules,
- Lecture 24 : Intermediate phases e.g., laves, sigma, electron compounds
- Lecture 25: Important systems with intermediate phases: Ni-Al, Ti-Al and Fe-Al systems
- Lecture 26 : Iron-carbon phase diagram and microstructures of plain carbon steel and cast iron: non-equilibrium structures
- Lecture 27-28::Some binary ceramics systems: SiO2-Al2O3, NiO-MnO, etc and their microstructure.
- Lecture 29 : Ternary phase diagrams: Gibbs triangle, isothermal and vertical sections,
- Lecture 30-31: Polythermal projections, two-phase equilibrium
- Lecture 32: Concept of the lines, rules for construction of tie lines,
- Lecture 33-34: three phase equilibrium, concept of tie-triangle, four phase equilibria.
- Lecture 35-36: Multi-component alloy systems: Stainless steels, high speed steels, super alloys, light metal alloys, refractory systems (Al2O3 - SiO2 -MgO)