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B-TECH-M-TECH-DUAL-DEGREE in Mechanical Engineering Mechanical Systems Design at Indian Institute of Technology Indore
Indore, Madhya Pradesh
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About the Specialization
What is Mechanical Engineering (Mechanical Systems Design) at Indian Institute of Technology Indore Indore?
This Mechanical Systems Design program at Indian Institute of Technology Indore focuses on equipping students with advanced knowledge in designing, analyzing, and optimizing mechanical systems. It is highly relevant to India''''s burgeoning manufacturing and high-tech sectors, addressing the need for skilled engineers in product development and automation. The program emphasizes both theoretical foundations and practical application, preparing graduates for diverse roles in industry.
Who Should Apply?
This program is ideal for fresh engineering graduates with a strong aptitude for design, analysis, and problem-solving, seeking entry into core mechanical industries. It also suits working professionals aiming to upskill in areas like advanced materials, robotics, or control systems. Individuals looking for a career change into product development, automotive, or aerospace sectors within India will find this specialization highly beneficial.
Why Choose This Course?
Graduates of this program can expect to pursue rewarding career paths in design, R&D, and analysis roles across Indian companies like Tata Motors, Mahindra, L&T, and various startups. Entry-level salaries typically range from INR 7-12 LPA, with experienced professionals earning significantly more. The strong foundation also opens doors for higher studies or entrepreneurship in deep-tech mechanical areas, aligning with industry demand for innovation.
Student Success Practices
Foundation Stage
Master Core Engineering Principles- (Semester 1-2)
Dedicate time to build a strong foundation in calculus, physics, and basic engineering mechanics. Utilize study groups, practice problem-solving regularly, and attend tutorial sessions. IIT Indore''''s robust academic environment encourages peer learning and faculty mentorship to reinforce these fundamentals.
Tools & Resources
NPTEL courses for conceptual clarity, Departmental study groups, Tutoring by senior students, Textbooks and reference manuals
Career Connection
A solid grasp of fundamentals is critical for all advanced mechanical engineering subjects and forms the base for cracking technical interviews during placements.
Develop Programming and CAD Skills Early- (Semester 1-3)
Beyond classroom learning, actively engage in programming exercises (e.g., C/Python from CS101) and practice engineering graphics using CAD software. Explore online tutorials and projects to enhance practical application, crucial for modern mechanical design.
Tools & Resources
Open-source CAD software (FreeCAD, Solid Edge Community Edition), HackerRank, LeetCode for programming practice, IIT Indore Computer Centre resources
Career Connection
Proficiency in programming and CAD is a sought-after skill for design, analysis, and automation roles, significantly boosting internship and placement prospects.
Engage in Departmental Workshops and Clubs- (Semester 2-4)
Participate in mechanical engineering clubs (e.g., Robotics Club, Automobile Club) and departmental workshops. These activities provide hands-on experience, networking opportunities with seniors and faculty, and a chance to apply theoretical knowledge to practical projects.
Tools & Resources
Mechanical Engineering Department clubs, Inter-IIT technical festivals, Workshop facilities at IIT Indore
Career Connection
Building project experience and soft skills through clubs demonstrates initiative and practical acumen, making students more attractive to recruiters for diverse engineering roles.
Intermediate Stage
Deep Dive into Mechanical Systems Design Software- (Semester 5-7)
Beyond theoretical courses like Solid Mechanics and Machine Design, learn and master industry-standard software for CAD (SolidWorks, CATIA), CAE (ANSYS, Abaqus for FEM), and CAM. Seek out advanced training or certifications, and apply them in course projects.
Tools & Resources
Official software licenses through IIT Indore, Online courses (Coursera, Udemy) for specific software, Faculty guidance on software usage in research
Career Connection
Hands-on expertise in design and simulation software is a primary requirement for mechanical design engineers in India''''s automotive, aerospace, and heavy machinery industries.
Seek Research and Internship Opportunities- (Semester 4-8 (Summer breaks))
Actively look for summer research internships (SRIP, SURP) within IIT Indore or at other IITs/research institutes. Pursue industrial internships in companies relevant to Mechanical Systems Design (e.g., automotive, manufacturing, automation firms) to gain real-world exposure.
Tools & Resources
IIT Indore Career Development Centre, LinkedIn for industry contacts, Professors for research opportunities
Career Connection
Internships are crucial for understanding industry expectations, building professional networks, and often convert into Pre-Placement Offers (PPOs) at top Indian engineering firms.
Participate in Design Competitions and Projects- (Semester 5-8)
Join teams for national or international design competitions (e.g., Baja SAE, Formula Bharat, RoboCon). These projects provide invaluable experience in systems integration, project management, and teamwork, fostering innovation and problem-solving skills under pressure.
Tools & Resources
Funding and mentorship from IIT Indore, Workshop and lab facilities, Student teams and clubs
Career Connection
Participation in such events showcases practical engineering skills, resilience, and leadership, making students stand out in a competitive job market in India.
Advanced Stage
Specialize through Electives and M.Tech Projects- (Semester 9-10)
Carefully choose M.Tech discipline electives that align with your career aspirations within Mechanical Systems Design, such as Robotics, Advanced Vibrations, or Product Design. Focus your M.Tech project on an impactful, industry-relevant problem that demonstrates specialized expertise.
Tools & Resources
Faculty advisors for elective guidance, Department research labs and equipment, Industry problem statements for projects
Career Connection
Deep specialization makes you a highly valued asset for R&D roles, advanced design positions, and academic pursuits, commanding higher salaries and rapid career growth in India''''s advanced engineering sectors.
Network and Build a Professional Brand- (Semester 7-10)
Actively attend industry conferences, seminars, and alumni networking events. Maintain a strong online professional presence (e.g., LinkedIn) showcasing projects, skills, and academic achievements. This helps in identifying job opportunities and building a professional network crucial for career progression in India.
Tools & Resources
LinkedIn, Professional engineering societies (IEI, ASME India section), IIT Indore alumni network
Career Connection
Networking opens doors to hidden job markets, mentorship, and entrepreneurial opportunities, significantly impacting long-term career success and leadership roles in Indian industry.
Master Placement Preparation and Interview Skills- (Semester 8-10)
Engage in rigorous placement preparation, including mock interviews, aptitude test practice, and resume building workshops offered by the CDC. Focus on articulating your project experiences and specialized knowledge clearly, aligning them with company requirements for design and analysis roles.
Tools & Resources
IIT Indore Career Development Centre, Online aptitude platforms, Peer mock interview groups
Career Connection
Effective placement preparation ensures securing positions with top Indian and multinational companies seeking skilled Mechanical Systems Design engineers, leading to a strong start in your professional journey.
Program Structure and Curriculum
Eligibility:
- No eligibility criteria specified
Duration: 10 semesters / 5 years
Credits: 200 Credits
Assessment: Assessment pattern not specified
Semester-wise Curriculum Table
Semester 1
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| MA101 | Calculus | Core | 4 | Limits and continuity, Differentiation and applications, Functions of several variables, Multiple integrals, Vector calculus |
| PH101 | Physics I | Core | 4 | Classical mechanics, Special relativity, Wave motion and oscillations, Physical optics, Introduction to quantum mechanics |
| PH103 | Physics Lab I | Lab | 2 | Experiments on mechanics, Experiments on oscillations, Experiments on wave phenomena, Data analysis and error estimation, Optical experiments |
| CS101 | Introduction to Computing | Core | 3 | Programming fundamentals, Data types and variables, Control structures, Functions and arrays, File handling and basic algorithms |
| CS103 | Computer Lab | Lab | 2 | Programming exercises in C/Python, Problem solving using algorithms, Debugging techniques, Practical application of data structures, Introduction to command line interface |
| CE101 | Engineering Graphics | Core | 3 | Introduction to engineering drawing, Orthographic projections, Isometric projections, Sectional views, Computer-aided drafting (CAD) basics |
| HS101 | English Communication | Core | 2 | Grammar and vocabulary, Reading comprehension, Written communication, Verbal communication skills, Presentation techniques |
| HS103 | English Communication Lab | Lab | 1 | Group discussions, Public speaking, Interview skills, Presentation practice, Listening skills |
| ME101 | Introduction to Mechanical Engineering | Core | 1 | Scope of mechanical engineering, Branches of mechanical engineering, Key mechanical systems, Applications in industry, Future trends |
Semester 2
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| MA102 | Differential Equations | Core | 4 | First order ODEs, Higher order linear ODEs, Series solutions, Laplace transforms, Partial differential equations |
| PH102 | Physics II | Core | 4 | Electromagnetism, Maxwell''''s equations, Semiconductor physics, Solid state physics, Lasers and applications |
| PH104 | Physics Lab II | Lab | 2 | Experiments on electromagnetism, Semiconductor device characteristics, Optical experiments with lasers, Measurement of fundamental constants, Advanced data analysis |
| EE101 | Basic Electrical Engineering | Core | 3 | DC and AC circuits, Circuit theorems, Magnetic circuits, Transformers, Introduction to electrical machines |
| EE103 | Basic Electrical Engineering Lab | Lab | 2 | Verification of circuit theorems, Measurement of electrical quantities, Characteristics of diodes and transistors, Experiments with AC circuits, Introduction to breadboarding |
| CH101 | Chemistry I | Core | 3 | Atomic and molecular structure, Chemical bonding, Thermodynamics and kinetics, Electrochemistry, Materials chemistry |
| CH103 | Chemistry Lab | Lab | 2 | Volumetric analysis, Gravimetric analysis, Chemical kinetics experiments, Synthesis of inorganic/organic compounds, Spectrophotometry |
| ME102 | Engineering Mechanics | Core | 4 | Statics of particles and rigid bodies, Equilibrium of rigid bodies, Trusses and frames, Centroids and moment of inertia, Kinematics and kinetics of particles |
Semester 3
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| MA201 | Real and Complex Analysis | Core | 4 | Sequences and series of functions, Uniform convergence, Functions of complex variables, Cauchy-Riemann equations, Residue theorem |
| ME201 | Engineering Thermodynamics | Core | 4 | Basic concepts and properties of substances, First law of thermodynamics, Second law of thermodynamics, entropy, Availability and irreversibility, Thermodynamic cycles (power and refrigeration) |
| ME203 | Solid Mechanics | Core | 4 | Stress and strain, Elastic constants, Bending and shear in beams, Torsion of circular shafts, Combined stresses, theories of failure |
| ME205 | Manufacturing Processes | Core | 3 | Casting processes, Forming processes, Welding processes, Machining processes, Non-traditional machining |
| ME207 | Materials Science and Engineering | Core | 3 | Atomic structure and bonding, Crystal structures, Mechanical properties of materials, Phase diagrams and transformations, Engineering materials (metals, polymers, ceramics) |
| ES201 | Environmental Studies | Core | 2 | Ecology and ecosystems, Environmental pollution and control, Natural resources and conservation, Climate change and global issues, Sustainable development |
Semester 4
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| MA202 | Numerical Analysis and Transform Techniques | Core | 4 | Solution of non-linear equations, Interpolation and curve fitting, Numerical differentiation and integration, Numerical solution of ODEs, Fourier transforms |
| ME202 | Fluid Mechanics | Core | 4 | Fluid properties and statics, Fluid kinematics, Fluid dynamics (Euler and Bernoulli equations), Viscous flow, laminar and turbulent flow, Boundary layer theory |
| ME204 | Dynamics of Machinery | Core | 4 | Kinematics of linkages, Cams and gears, Static and dynamic force analysis, Balancing of rotating and reciprocating masses, Governors and flywheels |
| ME206 | Machine Drawing | Core | 3 | Conventions in machine drawing, Assembly drawings, Detail drawings, Fits, tolerances and surface finish, CAD applications for machine parts |
| ME208 | Theory of Machines | Core | 3 | Mechanisms and machines, Kinematic pairs and chains, Velocity and acceleration analysis, Grashof''''s law, Synthesis of mechanisms |
| ME210 | Manufacturing Processes Lab | Lab | 2 | Experiments on casting, Experiments on welding, Machining operations (turning, milling, drilling), Sheet metal operations, Metrology and measurement techniques |
Semester 5
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| ME301 | Design of Machine Elements | Core | 4 | Introduction to machine design, Static and dynamic loading, Design of shafts, keys, couplings, Design of power screws and threaded fasteners, Design of welded and riveted joints |
| ME303 | Heat Transfer | Core | 4 | Conduction heat transfer, Convection heat transfer, Radiation heat transfer, Heat exchangers, Phase change heat transfer |
| ME305 | Metrology and Inspection | Core | 3 | Linear and angular measurements, Limits, fits and tolerances, Surface finish measurement, Coordinate measuring machines (CMM), Statistical process control (SPC) |
| ME307 | Industrial Engineering and Operations Research | Core | 3 | Work study and method study, Facility layout and material handling, Linear programming, Queuing theory, Inventory control |
| ME309 | Fluid Mechanics and Machines Lab | Lab | 2 | Flow measurement techniques, Performance of pumps and turbines, Losses in pipes and fittings, Viscosity measurement, Boundary layer experiments |
| HSXXX | Humanity Elective I | Elective (Humanity) | 3 | |
| ME DE1 | Department Elective I (Choose from list for Mechanical Systems Design) | Elective (Discipline) | 3 |
Semester 6
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| ME302 | Control Engineering | Core | 4 | Control system modeling, Transient and steady-state response, Stability analysis (Routh-Hurwitz, Nyquist), Root locus technique, Controller design (PID) |
| ME304 | CAD/CAM | Core | 3 | Geometric modeling (wireframe, surface, solid), Feature-based modeling, CAD data exchange formats, NC programming and tool path generation, Computer Integrated Manufacturing (CIM) concepts |
| ME306 | Vibrations and Noise | Core | 3 | Single degree of freedom systems, Multi-degree of freedom systems, Vibration isolation and control, Sound waves and acoustics, Noise measurement and control |
| ME308 | Mechanical Engineering Lab | Lab | 2 | Experiments on heat transfer, Experiments on thermodynamics, Experiments on machine dynamics, Material testing experiments, Instrumentation and measurement |
| ME DE2 | Department Elective II (Choose from list for Mechanical Systems Design) | Elective (Discipline) | 3 | |
| OE1 | Open Elective I | Elective (Open) | 3 | |
| HSXXX | Humanity Elective II | Elective (Humanity) | 3 |
Semester 7
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| ME401 | Measurement and Instrumentation | Core | 3 | Static and dynamic characteristics of instruments, Measurement of displacement, velocity, acceleration, Measurement of force, torque, pressure, Temperature measurement, Data acquisition systems |
| ME403 | Finite Element Method | Core | 3 | Introduction to FEM, 1D and 2D elements, Shape functions and stiffness matrix, Assembly of global stiffness matrix, Applications in structural and thermal analysis |
| ME405 | Project I | Project | 3 | Problem identification and literature review, Methodology development, Experimental setup or simulation design, Data collection and preliminary analysis, Report writing and presentation |
| ME DE3 | Department Elective III (Choose from list for Mechanical Systems Design) | Elective (Discipline) | 3 | |
| ME DE4 | Department Elective IV (Choose from list for Mechanical Systems Design) | Elective (Discipline) | 3 | |
| OE2 | Open Elective II | Elective (Open) | 3 |
Semester 8
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| ME402 | Design Project | Project | 5 | Advanced product design methodology, Detailed engineering design, CAD modeling and analysis, Prototype development and testing, Technical documentation and presentation |
| ME DE5 | Department Elective V (Choose from list for Mechanical Systems Design) | Elective (Discipline) | 3 | |
| ME DE6 | Department Elective VI (Choose from list for Mechanical Systems Design) | Elective (Discipline) | 3 | |
| OE3 | Open Elective III | Elective (Open) | 3 |
Semester 9
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| ME501 | Advanced Solid Mechanics | Discipline Core (M.Tech) | 3 | Stress and strain tensors, Constitutive equations for elastic materials, Energy methods in elasticity, Theories of failure, Introduction to plasticity and viscoelasticity |
| ME503 | Advanced Kinematics and Dynamics of Machinery | Discipline Core (M.Tech) | 3 | Spatial mechanisms, Jacobian analysis, Advanced cam and gear design, Lagrangian and Hamiltonian dynamics, Robot manipulators kinematics and dynamics |
| ME MDE1 | M.Tech Discipline Elective I (Mechanical Systems Design) | Elective (Discipline M.Tech) | 3 | |
| ME MDE2 | M.Tech Discipline Elective II (Mechanical Systems Design) | Elective (Discipline M.Tech) | 3 | |
| OE4 | Open Elective IV (M.Tech) | Elective (Open M.Tech) | 3 | |
| ME591 | Seminar | Project | 2 | Technical presentation skills, Literature review on advanced topics, Research methodology discussion, Critical analysis of scientific papers, Academic writing principles |
Semester 10
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| ME592 | M.Tech Project Part I | Project | 6 | In-depth research problem definition, Advanced literature review, Development of theoretical framework/experimental plan, Preliminary data analysis and simulations, Project report and presentation |
| ME MDE3 | M.Tech Discipline Elective III (Mechanical Systems Design) | Elective (Discipline M.Tech) | 3 | |
| ME MDE4 | M.Tech Discipline Elective IV (Mechanical Systems Design) | Elective (Discipline M.Tech) | 3 | |
| ME MDE5 | M.Tech Discipline Elective V (Mechanical Systems Design) | Elective (Discipline M.Tech) | 3 | |
| OE5 | Open Elective V (M.Tech) | Elective (Open M.Tech) | 3 |
Semester Discipline
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| ME351 | Product Design and Development | Elective (Discipline) | 3 | Product lifecycle, Design thinking, Concept generation and selection, Prototyping and testing, Design for manufacturing and assembly |
| ME352 | Mechanical Vibrations | Elective (Discipline) | 3 | Free and forced vibration, Damped vibration, Vibration of continuous systems, Rotor dynamics, Vibration measurement and control |
| ME353 | Computer Integrated Manufacturing | Elective (Discipline) | 3 | CIM concepts and components, CAD/CAM integration, Flexible manufacturing systems (FMS), Robotics in manufacturing, Automated material handling |
| ME354 | Mechatronics | Elective (Discipline) | 3 | Sensors and actuators, Microcontrollers and embedded systems, Data acquisition, System modeling and control, Mechatronic system design |
| ME355 | Advanced Solid Mechanics | Elective (Discipline) | 3 | Stress and strain tensors, Constitutive relations, Energy methods in elasticity, Plasticity and yield criteria, Fracture mechanics |
| ME356 | Robotics | Elective (Discipline) | 3 | Robot kinematics, Robot dynamics, Trajectory planning, Robot control, Robot vision and sensing |
| ME357 | Refrigeration and Air Conditioning | Elective (Discipline) | 3 | Vapor compression refrigeration cycles, Refrigerants, Psychrometrics and air conditioning processes, Cooling load calculation, HVAC system design |
| ME358 | Computational Fluid Dynamics | Elective (Discipline) | 3 | Governing equations of fluid flow, Finite difference method, Finite volume method, Grid generation, Turbulence modeling |
| ME359 | Automobile Engineering | Elective (Discipline) | 3 | Engine systems and components, Transmission systems, Braking and suspension systems, Steering and chassis design, Electric and hybrid vehicles |
| ME360 | Power Plant Engineering | Elective (Discipline) | 3 | Thermal power plants, Hydroelectric power plants, Nuclear power plants, Gas turbine power plants, Renewable energy power generation |
| ME361 | Renewable Energy Systems | Elective (Discipline) | 3 | Solar energy technologies, Wind energy systems, Biomass energy, Geothermal and ocean energy, Energy storage systems |
| ME362 | Noise and Vibration Control | Elective (Discipline) | 3 | Sound propagation and absorption, Noise sources and measurement, Vibration isolation techniques, Active and passive noise control, Acoustic materials |
| ME363 | Industrial Safety Management | Elective (Discipline) | 3 | Hazard identification and risk assessment, Safety regulations and standards, Occupational health and safety, Accident investigation and prevention, Emergency preparedness |
Semester Discipline
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| ME505 | Advanced Dynamics | Elective (Discipline M.Tech) | 3 | Lagrangian and Hamiltonian formulations, Multibody system dynamics, Impact and collisions, Non-linear dynamics, Robot manipulator dynamics |
| ME507 | Advanced Mechanical Vibrations | Elective (Discipline M.Tech) | 3 | Random vibrations, Vibration of continuous systems, Non-linear vibrations, Vibration isolation and control, Condition monitoring |
| ME509 | Mechatronics | Elective (Discipline M.Tech) | 3 | Sensors, actuators and transducers, Microcontrollers and embedded systems, Data acquisition and signal processing, Modeling and simulation of mechatronic systems, Real-time control systems |
| ME511 | Robotics and Automation | Elective (Discipline M.Tech) | 3 | Robot kinematics and dynamics, Robot control strategies, Trajectory planning, Industrial automation concepts, Advanced robot applications |
| ME513 | Finite Element Analysis | Elective (Discipline M.Tech) | 3 | Variational principles, Isoparametric elements, FEM for non-linear problems, Dynamic analysis using FEM, Advanced applications in solid and fluid mechanics |
| ME515 | Design of Mechanisms | Elective (Discipline M.Tech) | 3 | Type synthesis of mechanisms, Number synthesis of mechanisms, Dimensional synthesis (graphical and analytical), Advanced cam and gear mechanisms, Robot mechanism design |
| ME517 | Tribology | Elective (Discipline M.Tech) | 3 | Friction, wear, and lubrication, Surface topography, Lubricant properties and types, Bearing design and analysis, Tribological coatings and materials |
| ME519 | Composite Materials | Elective (Discipline M.Tech) | 3 | Classification of composite materials, Micromechanics and macromechanics of composites, Manufacturing processes for composites, Mechanical behavior of composites, Applications of composite materials |
| ME521 | Product Design and Development | Elective (Discipline M.Tech) | 3 | Voice of customer and market research, Concept generation and selection, DFM, DFA, DFE principles, Intellectual property and patenting, Product lifecycle management |
| ME523 | Smart Materials and Structures | Elective (Discipline M.Tech) | 3 | Piezoelectric materials, Shape memory alloys, Magnetostrictive materials, Electrorheological and magnetorheological fluids, Applications in adaptive structures |
| ME525 | Control System Design | Elective (Discipline M.Tech) | 3 | State-space analysis, Pole placement design, Observer design, Non-linear control systems, Optimal control |
| ME527 | Reliability Engineering | Elective (Discipline M.Tech) | 3 | Reliability metrics and distributions, Failure rate analysis, System reliability modeling, Maintainability and availability, Reliability testing |
| ME529 | Non-linear Vibrations | Elective (Discipline M.Tech) | 3 | Phase plane analysis, Limit cycles and chaotic vibrations, Non-linear oscillators, Perturbation methods, Numerical methods for non-linear systems |
| ME531 | Industrial Robotics | Elective (Discipline M.Tech) | 3 | Industrial robot components, Robot programming (lead-through, off-line), Robot grippers and tooling, Robot cell design and safety, Applications in manufacturing and automation |
| ME533 | System Design | Elective (Discipline M.Tech) | 3 | Systems engineering principles, Requirement analysis and specification, Conceptual design and architecture, Design for reliability and safety, System integration and testing |
| ME535 | Advanced Engineering Design | Elective (Discipline M.Tech) | 3 | Design optimization techniques, Robust design principles, DFSS (Design for Six Sigma), Concurrent engineering, Innovation and creativity in design |
