ug curriculum iit madras

UG CurriculumIIT Madras

Profile of a B.Tech/DD study• Introduction to profession

• Basics & fundamentals

• Application aspects

– Laboratory courses

• Electives and higher level courses

– Feel for specialisations & research

• Case studies & exposure to real world

– Ability to handle real situations

• Capability for (independent) research

B.Tech./DD programme in MME

• Introductory courses

– Introduction to Materials Engineering, Science, Engineering and Technology of Materials

– Should enthuse the students towards MME

• Basics and fundamentals

– Principles of Physical Metallurgy, Metallurgical Thermodynamics, Extractive Metallurgy, Phase Transformations, Transport Phenomena, Mechanical Metallurgy (incl. creep, fatigue and fracture mechanics), Physics of Materials, Characterisation of Materials, Powder Metallurgy, Refractories, Ceramics, Electronic, Magnetic and other properties

– Associated laboratories to improve understanding

B.Tech./DD programme in MME (ctd)

• Application aspects

– Environmental Degradation, Iron and Steel making, Processing of Materials - Forming, Joining and Casting, Computational techniques

– Adequate laboratory/demonstration classes

• Case studies from the real world

– Defects and Failures in Manufacturing and Service, Metallurgical Plant Design

– Industrial Training and Lectures

• Capability for (independent) research

– Project work

Points regarding our MME courses

• Introductory courses

– To give a feel of/for materials (without going into depth)

– Commonly seen objects (household, domestic & other items)

– Common functional objects (engine components etc.)

– Unseen functional objects

– Specialised objects/components

– Inner structures of materials (Optical, SEM, TEM pictures)

– Should tie up with the ID 1100 course on design

– ID course coordinator to interact with instructor

– Instructor to carefully design the course in order to maximise the students’ interest/enthusiasm

– General knowledge and fun stuff (esp. in I semester)

– More in the form of games/play

Points regarding our MME Courses

• Basic & fundamental courses as well as courses concerning application aspects

– Overlap should be reduced

– Some overlap is needed to ensure continuity

• Electives and higher level courses

– Should there be electives only for B.Tech/DD?

– Pros – Can be pitched at a really advanced level

– Cons – Precludes PG students

– Cons – Increases total number of courses to be floated

– Already reasonable number of PG courses available

• Real world & case study courses

– Currently in “Self study” mode

– More needed?

Curricula comparison

Sem

IITM IITB IIT KGP IITK IITR

I • Intro to Matls Eng

II • Sci. & Eng of Matls

• Intro to Matl. Sci. & Eng

• Intro to profession

III • Principles of Phys. Met

• Met. ThermoD

• Structure of Matls

• Mechanics of Matls

• Transport Phenomena

• Met. ThermoD & Kinetics

• Intro to Engg Matls

• ThermoD of Matls

• Met. thermoD & Kinetics

• Phys. Met.• Transport

Phenomena

• Particulate processing

IV • Mech. Met.• Intro to

Transp. Phen.• Phase

Transfms• Principles of

Extractive met.

• ThermoD of Matls

• Kinetics of Processes

• Matls Processing

• Deformation behaviour of matls

• Transp. Phen. In Met. Proc.

• Met. Kinetics

• Matls Characterisation

• Fuels furnaces & refractories

• Electrical & Electronic matls

• Metal extraction principles

Sem


V • Physics of matls

• Matls Charact.

• Creep, fatigue & Fract. Mech.

• Metal joining tech.

• Env. Degr. of matls

• Phase Transfs

• Ceramic and powder Met

• Mech. Behaviour of Matls

• Principles of extractive metallurgy

• Phase transfs and ht trtmt of matls

• Mech. working of Matls

• Creep fatigue and fracture

• Mech. Behaviour of Matls

• Principles of extraction and refining

• Phase equilibria in matls

• Metal Processing-I

• Mech. Behaviour of matls

• Ceramics & Metal proc.

• Modelling & simulation of Met. Proc.

VI • Iron making & steel making

• Metal forming tech.

• Solidification proc.

• Electronic Props of Matls

• Metal casting and joining

• Process Metallurgy principles

• Ironmaking & steelmaking

• Matls char.• X-ray diff. &

trans electron microscopy

• Computer applications in met. processes

• Phase transf. in matls

• Iron & steel making

• Fundas of matls processes

• Corrosion science & tech.

• Communication skills

• Iron making

• Phase transf & ht trtmt


Sem


VII • P/M Refr. & Ceramics

• Intro to proc. control theory & instrumentn

• Eng. polymers and composites

• Iron and steel making

• Corrosion and Env. degr,. of matls

• Electronic & mag props of matls

• Manf. proc: selection & their design

• Composite & polymers

• Steel making

• Non-ferrous technology

VIII • Corrosion and protection of Matls

• Matl Degr & prevention

• Mech. working of metals


A quick comparison between IITs

Topics IITM IITB IITKGP

IITK IITR

Introductory course 1 1 1 1

Physical Metallurgy 4 2 1 2 2

ThermoD, Kinetics, Transport, Furnaces

2 3 2 2 3

Mechanical Metallurgy 2 2 2 1 1

Iron & Steel (making) 1 1 1 1 2

Process Metallurgy 3 2 2 2 3

Characterisation 1 2 1

Extraction (non-ferrous) 1 1 1 2

Corrosion/Environmental degradation

1 1 1 1 1

Computer, Modeling & Simulation

1 1 1

Powder metallurgy 0.33 0.5 1

Ceramics 0.33 0.5

Refractories 0.33

Electronic (& magnetic) properties

1 1

Polymer & Composites 1

Our proposed revision in B.Tech. programme

Revised curriculum

Sem Course Credi

ts Remarks Tot. Cr.

I Introduction to Materials Engineering

2-0-0-2 Retained as is 2 (2)

II Crystallography and Crystal Defects

3-1-0-4 New course 4 (3)

III Principles of Physical MetallurgyMetallurgical Thermodynamics

3-1-0-43-1-0-4

Tutorial class includedRetained as is 8 (8)

IV

Mechanical Behaviour Introduction to Transport PhenomenaPhase TransformationsPhysics of Materials

3-1-0-43-1-0-43-0-0-33-0-0-3

Includes creep, fatigue & fracture Minor modificationsMinor modificationsMinor modifications

14 (12)

V

Materials CharacterisationJoining of MaterialsEnvironmental Degradation of MaterialsPrinciples of Extractive MetallurgyNon-Metallic Materials

3-1-0-43-0-0-33-0-0-33-1-0-43-0-0-3

Retained as isRetained as isRetained as isModified syllabusSame as minor stream elective?*

17 (16)

* This course will be core for V sem MME B.Tech & DD students as well as minor stream elective for VII sem non MME B.Tech & DD students • Slot will be fixed based on minor stream electives (typically E

slot)• Numbers may be substantial (All MME BTech/DD + Minor

stream)

Revised curriculum

Sem

Course Credits

Remarks TotCr.

VI Iron Making TechnologyDeformation Processing and FormingSolidification ProcessingElective I

3-0-0-33-0-0-33-0-0-33-0-0-3

New courseNew courseSyllabus modified

12 (13)

VII Steel Making TechnologyElective IIElective III (self study)

3-0-0-33-0-0-33-0-0-3

New course

• Defects & Failures in Manf. & Serv

• Metallurgical Plant Design• Other courses?

9 (10)

VIII Elective IV 3 (3)

Any two PMT courses are to be taken in the P/F mode

Total PMT Credits2+4+8+14+17+12+9+3 = 69 (67)

I semester retained as it is

No Title L T P C Cat

MA1020 Calculus II – Functions of several variables

3 0 0 3 SMA

PH1020 Physics II 3 0 0 3 SPH

ME1100 Thermodynamics 3 0 0 3 BET

EE1100 Basic Electrical Engineering 3 0 0 3 BET

MM1xxx

Crystallography and Crystal Defects 3 1 0 4 PMT

PH1040 Physics Lab II 0 0 3 2 SPH

CY1002 Chemistry Lab I 1 0 3 3 SCY

WS1010

Workshop I 0 0 6 4 BES

Total 16

1 12

25


HS Humanities Elective I 3 0 0 3 HSS

MA Mathematics Elective III 3 0 0 3 SMA

ID1200 Ecology and Environment 2 0 0 2 BET

BT1010 Life Sciences 2 0 0 2 SLS

AM1100 Engineering Mechanics 3 1 0 4 BET

MM2010

Principles of Physical Metallurgy 3 1 0 4 PMT

MM2030

Metallurgical Thermodynamics 3 1 0 4 PMT

MM2011

Optical Micrography Lab 0 0 3 2 PML

Total 20

2 3 24


HS Humanities Elective II 3 0 0 3 HSS

MA Mathematics Elective IV 3 0 0 3 SMA

MM2xxx

Mechanical Behaviour 3 1 0 4 PMT

MM2xxx

Introduction to Transport Phenomena 3 1 0 4 PMT

MM2060

Phase Transformations 3 0 0 3 PMT

MM2xxx

Physics of Materials 3 0 0 3 PMT

MM2012

Physical Metallurgy & Ceramics Lab 0 0 3 2 PML

MM2014

Materials Chemistry & Powder Met. Lab 0 0 3 2 PML

Total 18

2 6 24


Minor Elective I (core) 3 0 0 3 MNS

MM3xxx

Principles of Extractive Metallurgy 3 1 0 4 PMT

MM3030

Materials Characterisation 4 0 0 4 PMT

MM3xxx

Non-Metallic Materials 3 0 0 3 PMT

MM3090

Environmental Degradation of Materials

3 0 0 3 PMT

MM3xxx

Joining of Materials 3 0 0 3 PMT

MM3011

Mechanical Metallurgy & Tribology Lab 0 0 3 2 PML

MM3012

Joining & NDT lab 0 0 3 2 PML

Total 19

1 6 24


Minor Elective II (core) 3 0 0 3 MNS

Free Elective I 3 0 0 3 -

MM Elective I 3 0 0 3 PMT

MM3xxx

Iron Making Technology 3 0 0 3 PMT

MM3xxx

Solidification Processing 3 0 0 3 PMT

MM3xxx

Deformation Processing and Forming 3 0 0 3 PMT

MM3100

Materials Characterisation Lab 0 0 3 2 PML

MM3013

Forming & Casting Lab 0 0 3 2 PML

Total 18

0 6 22


HS Professional Ethics 2 0 0 2 HPF

Minor Elective III 3 0 0 3 MNS

Free Elective II 3 0 0 3 -

MM Elective II (Self Study) 3 0 0 3 PMT

MM4xxx

Steel Making Technology 3 0 0 3 PMT

MM Elective III 3 0 0 3 PMT

MM4110

Project I 0 0 0 2 PMP

Total 17

0 0 19

MM4020

Industrial Training 0 0 6 2 PIT

Total 17

0 6 21


HS HS Elective III 3 0 0 3 HSS

IL4020 Industrial Lecture (P/F) 0 0 3 1 -

MM Elective IV 3 0 0 3 PMT

MM4120

Project - - - 9 PMT

Total 6 0 3 16

Any two PMT courses can be taken as Pass/Fail courses (4000 or higher)

Total credits = 24 + 25 + 24 + 24 + 24 + 22 + 21 + 16 = 180

Already available B.Tech electives

Renumbering needed

M.Tech.Elective?

Net modifications• II sem

– New course “Crystallography and Crystal Defects”

• IV sem

– Mechanical Metallurgy includes creep, fatigue & fracture, stepped to 4 credits, plastic deformation aspects go to Deformation Processing

– Principles of Extractive Metallurgy goes to V sem

– Physics of Materials brought forward from V sem

• V sem

– Creep, fatigue and fracture mechanics course deleted

– Physics of Materials taken to IV sem (to precede Electronic Materials)

– Principles of Extractive Metallurgy brought from IV sem

– This course followed by Iron Making and Steel Making in the VI sem and VII sem resp.

– Non-metallic Materials (already existing as MM3330) included as a core

• VI sem

– Metal Forming Technology renamed as Deformation Processing and Metal Forming

• VII sem

– P/M, refractories & ceramics course deleted

– Ceramic Materials, Polymer Materials & Powder Metallurgy – elective courses need to be floated

– Composite Technology & Electronic Materials courses available as electives

Comparison of the curricula

Topics Current Proposed

Introductory course 1 1

Crystallography, Physical Metallurgy 4 4

ThermoD, Kinetics, Transport, Furnaces 2 2

Mechanical Metallurgy 2 1

Iron & Steel (making) 1 2

Process Metallurgy 3 3

Characterisation 1 1

Extraction (non-ferrous) 1 1

Corrosion/Environmental degradation 1 1

Non-metallic Materials 1

Powder metallurgy 0.33

Electives

Ceramics 0.33

Refractories 0.33

Composites

Electronic Materials

Computational Methods

Thank you

New/Modified course syllabi

New/Modified courses & syllabi

• Crystallography and Crystal Defects

– MM1xxx

– 3-1-0-4

Structure of crystalline solids, lattices, basic ideas of symmetry, crystal systems, Bravais lattices, unit cells.

Indexing of directions and planes, notations, co-ordination number.

Introduction to space groups, Strukturbericht, Pearson symbols, important crystal structures (bcc, fcc, CsCl, Ni3Al, martensite, cementite, Laves, Sigma, mu, etc.).

Stereographic projections, single crystals, polycrystalline materials, nanocrystalline materials, non-crystalline materials.

Imperfections in solids: point defects, 1D, 2D, and 3D defects.

New/Modified courses & syllabi … ctd

• Principles of Physical Metallurgy

– MM2010

– 3-1-0-4

Phase diagrams – binary and ternary, principles of alloying, Hume-Rothery rules.

Strengthening mechanisms – solid solution, work hardening, precipitation hardening, dispersion strengthening.

Iron carbon diagram, isothermal, and continuous cooling transformation diagrams; influence of alloying elements on transformation characteristics; heat treatment - annealing, normalizing, hardening and tempering of steels, hardenability.

Introduction to important ferrous alloys (stainless and special steels, cast irons), aluminum alloys, titanium alloys, copper base alloys, Superalloys, shape memory alloys – classification, heat treatment, properties and applications.


• Mechanical Metallurgy

– MM2020

– 3-1-0-4

Strength of materials - Mohr’s circle representation, elements of elasticity and plasticity, yield criteria.

Deformation of ideal crystal, crystal defects, dislocation theory, dislocations in FCC, BCC, and HCP structures, stress fields and energies of dislocations, forces on and between dislocations, reactions and interaction of dislocations, dislocation-precipitate interactions.

Plastic deformation of single crystals and polycrystals.

Strain hardening, cold work, recovery and recrystallization.

Effect of grain boundaries, yield point phenomenon, strain ageing, dynamic strain ageing.

Tensile flow properties, effects of strain rate and temperature, ductile/brittle transition.

Introduction to creep, fatigue and fracture mechanics.


• Introduction to Transport Phenomena

– MM2040

– 3-1-0-4

Fundamentals of heat conduction, convection, radiation and their combined effects; steady and unsteady heat transfer in metallurgical processes, e.g. continuous casting, spray forming, solidification, extrusion etc.

Diffusion and its application in solid state materials processing, convective mass transfer in extraction processes, unsteady diffusion in finite and infinite bodies, diffusion and chemical reaction in porous and nonporous solid.

Newton’s law of viscosity, laminar flow problems related to metallurgy, general equation of continuity and motion.

Application of Bernoulli’s equation in flow measuring devices and flow from ladles.


• Phase Transformations

– MM2060

– 3-0-0-3

Definition and types of Phase transformations. Diffusion: Fick's laws of diffusion, solution of Fick's second law and its applications, atomic model of diffusion and role of crystal defects, temperature dependence of diffusion coefficient, Kirkendall effect. Diffusional transformation in solids and diffusionless transformation in solids. Nucleation and growth - energy considerations; homogeneous nucleation, heterogeneous nucleation, growth kinetics, overall transformation rates.

Crystal interfaces and microstructure. Microstructure evolution including recrystallization and grain growth

Precipitation from solid solution: Homogeneous and hetrogeneous nucleation of precipitates, the aging curve, mechanisms of age hardening, examples from Al-Cu and other alloy systems

Martensitic Transformations: General characteristics of martensitic reactions, similarity to deformation twinning, bain distortion, crystallography and kinetics of martensitic transformations, examples from ferrous and non-ferrous alloy systems. Order-disorder Transformation : Examples of ordered structures, long and short range order, detection of super lattices, influence of ordering on properties.

Introduction to Spinodal decomposition


•Principles of Extractive Metallurgy–MM3xxx

–3-1-0-4

Introduction: ores, mineral processing and beneficiation

Thermodynamic basis of metal extraction: Ellingham diagrams, predominance area diagrams, Pourbaix diagrams, concept of activity and activity scales

Slags and mattes and their physico-chemical properties

Kinetics of extraction process: kinetic theory, reaction rate theory, reaction across interfaces, nucleation of gas bubbles

Pyrometallurgy: heat and material balances, roasting, reducing agents, agglomeration processes, reduction of non-ferrous oxides (Pb and Zn), reduction of sulphide ores (Cu, Ni, Pb), metallothermic reduction of magnesium, halide extraction route (Ti and Zr)

Hydrometallurgy: leaching—practice, kinetics, metal recovery—cementation, hydrogen reduction, solvent extraction, ion exchange

Electrometallurgy: electrowinning—aqueous electrowinning (mainly Cu), molten halide route (Al, Mg), electrorefining.

Environmental issues, elements of computer control of metal production

Text Books:

1. The Extraction and Refining of Metals, C. Bodsworth, CRC Press (1994)

2. Principles of Extractive Metallurgy, H.S. Ray and A. Ghosh (1984)


• Deformation Processing and Forming

– MMxxxx

– 3-0-0-3

Aim: To introduce the basic principles of plasticity theory and deformation processing followed by description of the different forming processes

Introduction to stress tensors and stress analysis – principal stresses and shear stresses, yield criteria, elements of plasticity theory.

Features and characteristics of metal forming – classification, forming limits.

Effect of temperature in deformation– hot, cold and warm working, effect of strain rate, structure formation during cold and hot working – dynamic recovery and dynamic recrystallisation

Techniques of metal forming processes, such as forging, extrusion, wire drawing, rolling and sheet metal working – definitions, features, analyses, equipment and defects.

Estimation of formability in sheet metal working, forming limit diagrams. Non-conventional techniques of metal forming – high strain rate forming and superplastic forming processes.

Text Books:

1. Mechanical Metallurgy, G.E. Dieter, Mc-Graw Hill, London, 1988.

2. Metal Forming: Mechanics and Metallurgy, W.M. Hosford & R.M. Caddell, Prentice-Hall, 1983.

3. Metal Forming: Processes and Analysis, B. Avitzur, McGraw Hill, New York, 1968.

4. Metal Forming: Fundamentals and Applications, Taylan Altan, Soo-Ik Oh & H. Gegel, ASM, 1983.


• Solidification Processing

– MM3070

– 3-0-0-3 (credits retained same)

– Taught in the VI semester, Modified course

Heat transfer in solidification; continuous and ingot casting processes; shape casting processes; structure of castings and ingots; defects in casting; macro- and micro-segregation and homogenization; design of risering and gating in castings; Thermodynamics of solidification; Nucleation and growth; Gibbs-Thomson effect; anisotropy and faceting; Directional Solidification - growth of single crystals; alloy solidification; Mathematical Analysis of redistribution of solute during solidification; Stability of interface and constitutional undercooling; Mullins-Sekerka criterion, cellular and dendrite growth; Solidification microstructures of eutectic, peritectic and monotectic alloys; Coupled growth and phase selection; role of minor alloying elements on microstructure;


• Physics of materials

– MMxxxx

– 3-0-0-3 (credits retained same)

– Taught in the V semester, Modified course

Overview of properties of materials, Thermal expansion, Electrical Conductivity, Measuring electrical conductivity, Free electron theory of metals, Wiedemann-Franz law,

Drude model, Limitations of Drude model, Maxwell Boltzmann statistics, Elementary quantum mechanics, Drude-Sommerfeld model, Fermi-Dirac statistics, Fermi level,

Density of states, Reciprocal space, Electron diffraction in crystals, Brillouin zones, Fermi surface, Fermi Temperature, Origin of Bands, Electron compounds, Tight-binding

approximation, Semiconductors, Electrons and holes, Opto-electronic materials, Magnetic properties of materials, Superconductivity, Bose-Einstein statistics, Meissner effect, BCS theory and high-Tc superconductors.

B.Tech. programmes

Other IITs

B.Tech., Metallurgical Engineering & Materials Science,IIT Bombay, Mumbai – I year

First Semester

Course Code Course Name Lectures Tutorials Practicals Credits

CS 101 Computer Programming & Utilization 2.00 0.00 2.00 6.00

HS 101 Economics 3.00 0.00 0.00 6.00

ME 118 Engineering Graphics & Drawing 0.00 1.00 3.00 5.00

MA 105 Calculus 3.00 1.00 0.00 8.00

PH 103 Electricity and Magnetism 3.00 0.00 0.00 6.00

PH 117 Physics Lab 0.00 0.00 3.00 3.00

NC 101 N C C

PP/NP

NO 101 N S O

PP/NP

NS 101 N S S

PP/NP

Total 34.0

Second Semester

Course Code

Course Name Lectures Tutorials Practicals Credits

CH 103 Chemistry 2.00 1.00 0.00 6.00

CH 115 Chemistry Lab 0.00 0.00 3.00 3.00

IC 102 Statistics and Probability 3.00 0.00 0.00 6.00

MA 106 Linear Algebra 1.50 1.00 0.00 4.00

MA 108 Ordinary Differential Equations 1.50 1.00 0.00 4.00

MM 152

Introduction to Materials Science and Engineering

2.00 1.00 0.00 6.00

ME 113 Workshop Practice 0.50 0.00 3.00 4.00

NC 102 N C C

PP/NP

NO 102 N S O PP/NP

NS 102 N S S

PP/NP

Total 33.0

B.Tech., Metallurgical Engineering & Materials Science,IIT Bombay, Mumbai – II year

Second Semester


MM 202 Thermodynamics of Materials 2.00 1.00 0.00 6.00

ME 220 Theory of Machine and Machine Design 2.00 1.00 0.00 6.00

MM 305 Kinetics of Processes 2.00 1.00 0.00 6.00

PH 105 Modern Physics 3.00 1.00 0.00 8.00

IC 211 Measurement and Experimentation Lab 0.00 0.50 3.00 4.00

EE 209 Electrical/Electronics Lab 0.00 0.00 3.00 3.00

Total 33.0

First Semester

Course Code

Course Name Lectures Tutorials Practicals Credits

MM 201 Structure of Materials 3.00 0.00 0.00 6.00

MM 203 Mechanics of Materials 3.00 0.00 0.00 6.00

MM 204 Transport Phenomena 3.00 0.00 0.00 6.00

MM 212

Metallography and Structural Characterization Lab

0.00 0.50 3.00 4.00

EE 101

Introduction to Electrical Engineering and Electronics

4.00 0.00 0.00 8.00

Total 30.0

B.Tech., Metallurgical Engineering & Materials Science,IIT Bombay, Mumbai – III yearFirst Semester

Course Code Course Name Lectures

Tutorials

Practicals

Credits

MM 301 Phase Transformations 2.00 1.00 0.00 6.00

MM 357 Ceramics and Powder Metallurgy 2.00 1.00 0.00 6.00

HS 301/303/305/30

7

Philosophy/Psychology/Literature/Sociology

3.00 0.00 0.00 6.00

MM 319 Mechanical Behaviour of Materials 2.00 1.00 0.00 6.00

MM 312 Heat Treatment Lab 0.00 1.00 3.00 5.00

MM 362 Mechanical Testing Lab 0.00 0.50 1.50 2.50

Total 31.5

Second Semester


MM 318 Electronic Properties of Materials 2.00 1.00 0.00 6.00

MM 359 Metal Casting and Joining 2.00 1.00 0.00 6.00

MM 320 Process Metallurgy Principles 2.00 1.00 0.00 6.00

MA 214 Introduction to Numerical Analysis 3.00 1.00 0.00 8.00

MM 322 Casting and Joining Lab 0.00 0.00 1.50 1.50

MM 411 Manufacturing and Processing Lab 0.00 0.00 1.50 1.50

MM 396 Seminar 0.00 0.00 3.00 3.00

Total 32.0

B.Tech., Metallurgical Engineering & Materials Science,IIT Bombay, Mumbai – IV yearFirst Semester


MM 388 Practical Training PP/NP

MM 401

Introduction to Process control theory and Instrumentation

2.00 1.00 0.00 6.00

MM 453 Engineering Polymers and Composites 2.00 1.00 0.00 6.00

MM 304 Iron and Steel making 2.00 1.00 0.00 6.00

MM 419 Computational and Controls Lab 0.00 1.00 3.00 5.00

MM 433 Manufacturing Process Seminar 0.00 0.00 3.00 3.00

Institute Elective #I 2.00 1.00 0.00 6.00

Total 32.0

Second Semester


MM 454 Corrosion and Protection of Materials 2.00 1.00 0.00 6.00

ES 200

Environmental Studies: Science and Engineering

3.00 0.00 0.00 3.00

HS 200 Environmental Studies 3.00 0.00 0.00 3.00

MM 426 Equipment and Processes Design Lab 0.00 2.00 2.00 6.00

MM 462 Corrosion and Protection Lab 0.00 0.00 1.50 1.50

MM 448 Thin Films Lab 0.00 0.00 1.50 1.50

Institute Elective #2 2.00 1.00 0.00 6.00

Departmental Elective #1 2.00 1.00 0.00 6.00

#1Departmental Elective List:

1. MM 404 : Mechanical Working of Metals

2. MM 406: Semiconductor devices and Processing

Total 33.0

B.Tech., Metallurgical Engineering & Materials Science,IIT Bombay, Mumbai – IV year (Honors)

*Instead of doing elective 2 and elective 3, students can also opt for BTP and they have to register for BTP I in semester 7.


MM 409 Colloidal & Interfacial Science 2.00 1.00 0.00 6.00

MM 206

Experimental Techniques in Material Sciences

2.00 1.00 0.00 6.00

Elective 1 2.00 1.00 0.00 6.00

Elective 2* 2.00 1.00 0.00 6.00

Elective 3* 2.00 1.00 0.00 6.00

Total 30.0

B.Tech., Materials Science & Engineering, IIT Kanpur

B.Tech., Materials Science & Engineering, IIT Kharagpur

B.Tech., Metallurgy & Materials Science, IIT Roorkee

UG (II year I semester) UG (II year II semester)

UGIYearCourseCode CourseName Credits Lectures Tutorials EC-102 Electronics 4 3.0 1.0 CE-101 EngineeringGraphics-1 4 2.0 0.0 MI-101 Thermodynamics 3 2.0 0.0 CE-102 Environmental Studies 2 HS-102 Behavioral Science 2 MA-101 Mathematics-1 4 3.0 1.0 CY-101 Chemistry 5 3.0 1.0 MA-102 Mathematics-2 4 3.0 1.0 PH-101 Physics-1 5 3.0 1.0 EE-101 Electrical Science 4 3.0 1.0 MI-102 ManufacturingTechniques 3 BT-101 Fundamentalsof Biotechnology 2 2.0 0.0 HS-101 Technical Communication 2 3.0 0.0

CourseCode CourseName Credits MT-203 Metallurgical Thermodynamics&Kinetics 3 HS-201 Economics 3 CE-201 Computer Aided Graphics 2 MI-201A SolidMechanics 4 MT-205 Physical Metallurgy 4 MT-207 TransportPhenomena 3 MT-209 ParticulateProcessing 3

CourseCode CourseName Credits MT-206 Fuel FurnacesandRefractories 3 MT-208 Metallurgical &Instrument AnalysisLab 2 PH-201 Physics-II 3 BM-201 Management ConceptsandPractices 3 CH-201 EnergyResourcesandConversion 2 MT-202 Electrical &ElectronicMaterials 3 MT-204 Metal ExtractionPrinciples 3

B.Tech., Metallurgy & Materials Science, IIT Roorkee

UG (III year I semester) UG (III year II semester)

UG (IV year I semester)

UG (IV year II semester)

CourseCode CourseName Credits MT-307 Metal Processing-I 4 MT-303 Mechanical Behavior of Materials 3 MT-301 Ceramics&Metal Processing 4 MT-305 Modeling&Simulationof Metallurgical Processes 3

CourseCode CourseName Credits MT-302 CorrosionScience&Technology 3 MT-310 CommunicationSkills 2 MT-308 IronMaking 4 MT-306 PhaseTransformationandHeat Treatment 4

CourseCode CourseName Credits Lectures Tutorials MT-401 Composite&Polymers 4 3.0 1.0 MT-403 Steel Making 4 3.0 1.0 MT-405 Non-FerrousTechnology 4 3.0 1.0 MT-489 TrainingandSeminar 2 0.0 2.0 MT-491 Minor Project 2 0.0 0.0 MT-492 Major Project 0 0.0 0.0

CourseCode CourseName Credits Lectures Tutorials MT-402 Mechanical Workingof Metals 4 3.0 0.0 MT-492 Major Project 0 0.0 0.0

Suggestion of other courses by MME faculty

• Mathematical models and computational techniques in process metallurgy

– Proposed by Dr. Sabita Sarkar as a core course for B.Tech./DD

– “MT4110 Computational Techniques in Materials Engineering” is already available as elective for B.Tech./DD (currently dormant)

– Should this be revived as it is in elective form?

• Has to be allotted a MM number

– Or should it be a core course for B.Tech./DD?

• Reworking of curriculum will be needed

• Alternatively one elective course dropped instead

– Or be proposed as a PG elective?

• Make it possible for M.Tech and Research Scholars to credit the course

• Numbering of course will have to change

Already existing course in the departmentMM411 Computational Methods in Materials Engineering

Introduction to computers, numerical methods, minimization techniques, overview of computational techniques such as FEM, Monte Carlo, and molecular dynamics; use of computers to solve materials science problems, such as, phase transformations, nucleation and growth, diffusion and heat transfer.

ug curriculum iit madras

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