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B-TECH in Metallurgical And Materials Engineering at National Institute of Technology Rourkela
Sundargarh, Odisha
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About the Specialization
What is Metallurgical and Materials Engineering at National Institute of Technology Rourkela Sundargarh?
This Metallurgical and Materials Engineering program at NIT Rourkela focuses on the science and engineering of all classes of materials, including metals, ceramics, polymers, and composites. It emphasizes understanding their properties, processing, and performance in diverse applications. With India''''s growing manufacturing and infrastructure sectors, there''''s significant demand for materials engineers to innovate and develop advanced materials for various industries.
Who Should Apply?
This program is ideal for high school graduates with a strong aptitude in Physics, Chemistry, and Mathematics, who are curious about how materials work and can be engineered. It suits students aspiring for careers in core manufacturing, research and development, and those keen on contributing to advanced materials solutions in sectors like automotive, aerospace, defense, and electronics.
Why Choose This Course?
Graduates of this program can expect promising career paths in Indian companies such as Tata Steel, SAIL, Hindalco, DRDO, and various automotive and electronics manufacturers. Entry-level salaries typically range from INR 4-8 LPA, with significant growth potential into senior engineering or R&D roles. The program also prepares students for higher studies (M.Tech, PhD) and professional certifications in materials science.
Student Success Practices
Foundation Stage
Master Core Science & Engineering Fundamentals- (Semester 1-2)
Develop a strong understanding of foundational subjects like Mathematics, Physics, Chemistry, and Basic Engineering Mechanics. Utilize NPTEL videos, reference books, and peer-led study groups to clarify concepts. This strong base is crucial for grasping advanced MME principles like thermodynamics and material behavior.
Tools & Resources
NPTEL lectures, Standard textbooks (e.g., Callister for Materials Science), Problem-solving groups, Khan Academy for conceptual clarity
Career Connection
A solid foundation in core sciences is essential for analytical problem-solving required in R&D and manufacturing roles, directly impacting technical interview performance and understanding complex industrial processes.
Build Programming & Data Analysis Skills- (Semester 1-2)
Learn basic programming languages (like Python or C) and data analysis tools. Participate in online coding challenges or introductory workshops. This skill is increasingly vital for computational materials science, data interpretation from experiments, and process optimization.
Tools & Resources
HackerRank, CodeChef, Coursera/edX introductory programming courses, Anaconda (Python distribution)
Career Connection
Proficiency in programming and data analysis is a highly sought-after skill in materials R&D, quality control, and process engineering, opening doors to advanced simulation and data-driven roles.
Engage Actively in Departmental Clubs & Labs- (Semester 1-2)
Join the student chapter of Material Advantage or other departmental societies. Attend introductory workshops on material testing, microscopy, or CAD software. Early engagement provides practical exposure, networking opportunities with seniors, and helps identify areas of interest within MME.
Tools & Resources
NIT Rourkela Material Advantage Student Chapter, Departmental labs and workshops, Interacting with M.Tech/PhD students
Career Connection
Active participation enhances practical skills, fosters teamwork, and provides early insights into industry practices, making you a more well-rounded candidate for internships and placements.
Intermediate Stage
Undertake Mini-Projects & Intensive Lab Work- (Semester 3-5)
Actively participate in and seek out mini-projects related to your core subjects (e.g., Physical Metallurgy, Mechanical Behavior of Materials). Spend extra time in departmental labs, familiarizing yourself with equipment and experimental procedures. Focus on understanding the ''''why'''' and ''''how'''' behind each experiment.
Tools & Resources
Departmental research facilities, Lab manuals and safety protocols, Faculty guidance for project ideas
Career Connection
Hands-on experience through projects and lab work is crucial for developing practical engineering skills and demonstrating application-oriented knowledge to recruiters in core industries.
Seek Early Industrial Internships & Exposure- (Semester 3-5)
Apply for summer internships (even short-term ones) at steel plants (e.g., SAIL, Tata Steel), manufacturing units, or materials R&D centers. Attend industry guest lectures and seminars. This exposure provides invaluable real-world context to classroom learning and helps in career decision-making.
Tools & Resources
NIT Rourkela Career Development Centre (CDC), LinkedIn for networking, Company websites for internship programs, Industry conferences and workshops
Career Connection
Internships are often the gateway to pre-placement offers or full-time roles, providing a competitive edge and a clearer understanding of specific industry demands and career paths.
Develop Proficiency in Engineering Software- (Semester 3-5)
Learn and master industry-standard software relevant to MME, such as CAD (SolidWorks, AutoCAD), FEA (ANSYS), materials simulation (Thermodynamic databases, CALPHAD), and data analysis (MATLAB, Origin). Utilize online tutorials, departmental workshops, and integrate these tools into your projects.
Tools & Resources
SolidWorks, ANSYS, MATLAB licenses (often available through college), Udemy, Coursera courses for software training, YouTube tutorials and documentation
Career Connection
Software proficiency significantly enhances your marketability for design, simulation, and R&D roles, as these tools are indispensable in modern materials engineering and manufacturing.
Advanced Stage
Specialize Through Electives & Advanced Projects- (Semester 6-8)
Carefully choose departmental electives that align with your long-term career goals (e.g., Nanomaterials, Biomaterials, Welding Technology). Undertake a significant final year project with a strong research or industrial application focus. Aim for potential publications or patents if pursuing research.
Tools & Resources
Faculty mentors for project guidance, Advanced lab equipment, Research databases (Scopus, Web of Science), NIT Rourkela Central Library resources
Career Connection
Specialized knowledge from electives and a impactful project directly demonstrates expertise to potential employers, especially for R&D, product development, or higher studies opportunities.
Intensive Placement Preparation- (Semester 6-8)
Begin focused preparation for campus placements, covering technical subjects specific to MME (e.g., phase diagrams, heat treatment, material selection, mechanical testing). Practice aptitude tests, group discussions, and mock interviews regularly. Leverage the CDC''''s resources and alumni network.
Tools & Resources
Previous year placement papers, Online aptitude platforms (e.g., Indiabix), Mock interview sessions, NIT Rourkela CDC workshops and career fairs
Career Connection
Thorough preparation is paramount for securing desirable placements in core metallurgical and materials companies, ensuring you are ready to articulate your skills and knowledge effectively.
Professional Networking & Higher Studies Exploration- (Semester 6-8)
Attend national and international conferences (e.g., NMD-ATM, MRS-I) and workshops to network with industry leaders and researchers. Actively connect with NIT Rourkela alumni on LinkedIn. Explore options for M.Tech/PhD in India or abroad, and prepare for entrance exams like GATE or GRE if applicable.
Tools & Resources
LinkedIn for professional networking, Conference websites and proceedings, GATE/GRE preparation materials, Alumni association events
Career Connection
Networking opens doors to hidden job opportunities and mentorship, while exploring higher studies provides pathways for advanced research careers or specialized roles in academia or industry.
Program Structure and Curriculum
Eligibility:
- 10+2 with Physics, Chemistry, Mathematics with minimum marks as per JoSAA/CSAB guidelines, and a valid JEE Main score, subject to NIT Rourkela admission criteria.
Duration: 8 semesters / 4 years
Credits: 160 Credits
Assessment: Internal: 40%, External: 60%
Semester-wise Curriculum Table
Semester 1
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| HS1001 | Communication Skills in English | Core | 3 | Grammar and Vocabulary, Written Communication, Oral Communication, Presentation Skills, Technical Writing |
| MA1001 | Mathematics-I | Core | 4 | Calculus of One Variable, Functions of Several Variables, Vector Calculus, Sequences and Series, Linear Algebra |
| PH1001 | Physics | Core | 4 | Quantum Mechanics, Solid State Physics, Optics, Electromagnetism, Semiconductor Physics |
| ME1001 | Engineering Drawing | Core | 3 | Orthographic Projections, Sectional Views, Isometric Views, Machine Drawing, CAD Introduction |
| CS1001 | Computer Programming | Core | 3 | Programming Fundamentals, Control Structures, Functions, Arrays and Pointers, Data Structures Introduction |
| CH1001 | Chemistry | Core | 4 | Thermodynamics, Electrochemistry, Organic Chemistry, Coordination Chemistry, Materials Chemistry |
Semester 2
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| EE1001 | Basic Electrical Engineering | Core | 4 | DC Circuits, AC Circuits, Transformers, DC Machines, AC Machines |
| MA1002 | Mathematics-II | Core | 4 | Differential Equations, Laplace Transforms, Fourier Series, Complex Analysis, Partial Differential Equations |
| EV1001 | Environmental Science | Core | 2 | Ecosystems, Pollution and Control, Renewable Energy, Environmental Laws, Sustainable Development |
| ME1002 | Engineering Mechanics | Core | 4 | Statics of Particles and Rigid Bodies, Friction, Kinematics, Kinetics of Rigid Bodies, Work and Energy |
| CS1002 | Data Structures & Algorithms | Core | 4 | Arrays and Linked Lists, Stacks and Queues, Trees and Graphs, Sorting and Searching, Algorithm Analysis |
| PH1002 | Physics Laboratory | Lab | 1 | Measurement Techniques, Optical Experiments, Electrical Circuits, Semiconductor Devices, Material Properties |
| ME1003 | Workshop Practice | Lab | 1 | Carpentry, Fitting, Welding, Machining, Foundry |
Semester 3
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| MM2001 | Thermodynamics of Materials | Core | 4 | First and Second Law of Thermodynamics, Free Energy Concepts, Phase Equilibria, Solutions and Phase Diagrams, Reaction Kinetics |
| MM2003 | Metallurgical Thermodynamics & Kinetics | Core | 4 | Thermodynamic Potentials, Chemical Equilibrium, Reaction Rates, Diffusion in Solids, Transport Phenomena |
| MM2005 | Mechanical Behavior of Materials | Core | 4 | Stress-Strain Relationships, Elastic and Plastic Deformation, Fracture Mechanics, Fatigue and Creep, Hardness Testing |
| MA2001 | Engineering Mathematics-III | Core | 4 | Linear Algebra, Vector Spaces, Numerical Methods, Optimization Techniques, Probability and Statistics |
| MM2007 | Material Science Lab | Lab | 1 | Microscopy Techniques, Hardness Testing, Impact Testing, Tensile Testing, Metallography |
| OE0001 | Open Elective - I | Elective | 3 | Varies based on choice |
Semester 4
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| MM2002 | Physical Metallurgy | Core | 4 | Crystallography, Imperfections in Solids, Phase Transformations, Heat Treatment, Diffusion in Materials |
| MM2004 | Process Metallurgy | Core | 4 | Extractive Metallurgy, Iron and Steelmaking, Non-Ferrous Extraction, Refractories, Electrometallurgy |
| MM2006 | Material Characterization | Core | 4 | X-ray Diffraction, Electron Microscopy (SEM, TEM), Spectroscopy (EDS, XPS), Thermal Analysis, Optical Microscopy |
| MM2008 | Foundry Engineering | Core | 3 | Solidification Principles, Moulding Materials, Casting Processes, Defects and Inspection, Design of Castings |
| MM2010 | Metallography Lab | Lab | 1 | Sample Preparation, Microstructural Analysis, Phase Identification, Grain Size Measurement, Defect Observation |
| OE0002 | Open Elective - II | Elective | 3 | Varies based on choice |
Semester 5
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| MM3001 | Corrosion Engineering | Core | 3 | Electrochemistry of Corrosion, Types of Corrosion, Corrosion Control Methods, Corrosion Testing, High-Temperature Corrosion |
| MM3003 | Material Forming | Core | 3 | Plastic Deformation, Rolling, Forging, Extrusion, Drawing |
| MM3005 | Non-Ferrous Extractive Metallurgy | Core | 3 | Aluminium Extraction, Copper Extraction, Zinc and Lead Extraction, Precious Metals, Recycling of Metals |
| MM3007 | Materials Processing Lab | Lab | 1 | Heat Treatment Processes, Casting Experiments, Forming Operations, Welding Techniques, Corrosion Testing |
| ME3001 | Strength of Materials | Core | 4 | Axial Loading, Torsion, Bending, Shear Stress, Combined Stresses |
| HM3001 | Humanities Elective - I | Elective | 3 | Varies based on choice |
| PC3001 | Professional Communication | Core | 2 | Resume Writing, Interview Skills, Group Discussions, Report Writing, Presentation Skills |
Semester 6
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| MM3002 | Ceramics and Composites | Core | 3 | Ceramic Structures, Processing of Ceramics, Mechanical Behavior of Ceramics, Composite Classifications, Manufacturing of Composites |
| MM3004 | Welding Metallurgy | Core | 3 | Welding Processes, Heat Affected Zone, Weld Microstructures, Weld Defects, Weldability |
| MM3006 | Polymers and Polymer Composites | Core | 3 | Polymerization, Polymer Structure-Property, Polymer Processing, Polymer Composites, Recycling of Polymers |
| MM3008 | Nano Materials and Technology | Core | 3 | Nanomaterial Synthesis, Characterization of Nanomaterials, Properties of Nanomaterials, Applications of Nanomaterials, Nanotechnology Ethics |
| MM3010 | Metallurgical & Materials Engineering Lab | Lab | 1 | XRD Analysis, SEM Imaging, Thermal Analysis, Polymer Characterization, Composite Fabrication |
| MM3098 | Industrial Training | Project | 2 | Practical Industry Exposure, Project Implementation, Report Writing, Problem Solving, Teamwork |
| DE0001 | Departmental Elective - I | Elective | 3 | Varies based on choice |
Semester 7
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| MM4001 | Manufacturing Processes | Core | 3 | Advanced Casting, Powder Metallurgy, Additive Manufacturing, Surface Engineering, Non-Conventional Machining |
| MM4003 | Computational Materials Engineering | Core | 3 | Finite Element Analysis, Thermodynamic Software, Materials Modelling, Data Analysis in Materials, Simulation Techniques |
| MM4099 | Project - I | Project | 3 | Problem Definition, Literature Review, Methodology Design, Experimental Work, Preliminary Results |
| DE0002 | Departmental Elective - II | Elective | 3 | Varies based on choice |
| DE0003 | Departmental Elective - III | Elective | 3 | Varies based on choice |
| OE0003 | Open Elective - III | Elective | 3 | Varies based on choice |
Semester 8
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| MM4002 | Materials for Advanced Applications | Core | 3 | Aerospace Materials, Biomaterials, Electronic Materials, Energy Materials, Smart Materials |
| MM4098 | Project - II | Project | 6 | Advanced Research, Data Analysis, Thesis Writing, Presentation, Problem-Solving |
| DE0004 | Departmental Elective - IV | Elective | 3 | Varies based on choice |
| DE0005 | Departmental Elective - V | Elective | 3 | Varies based on choice |
