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B-TECH-M-TECH in Metallurgical Materials Engineering at National Institute of Technology Rourkela
Sundargarh, Odisha
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About the Specialization
What is Metallurgical & Materials Engineering at National Institute of Technology Rourkela Sundargarh?
This Metallurgical & Materials Engineering program at NIT Rourkela focuses on the comprehensive study of materials, from their atomic structure to their large-scale industrial applications. It delves into the extraction, processing, design, and performance of metals, ceramics, polymers, and composites. The program addresses the evolving demands of Indian industries, particularly in sectors like manufacturing, defense, energy, and biomedical, emphasizing sustainable materials development and advanced processing techniques relevant to India''''s push for self-reliance in critical technologies.
Who Should Apply?
This program is ideal for high-achieving fresh graduates who have qualified JEE Main and aspire to a career in core engineering, research, or product development within the materials sector. It caters to individuals seeking in-depth knowledge and advanced skills for roles in R&D, manufacturing, quality control, and design. Aspiring researchers, innovators, and future leaders in India''''s growing industrial landscape, with a strong foundation in science and mathematics, will find this dual degree particularly rewarding.
Why Choose This Course?
Graduates of this program can expect diverse and rewarding India-specific career paths in PSUs like SAIL, DRDO, ISRO, and private sector giants like Tata Steel, Hindalco, and Vedanta, as well as emerging startups in advanced materials. Entry-level salaries typically range from INR 6-10 LPA, with experienced professionals earning INR 15-30+ LPA. The dual degree offers an accelerated path to advanced technical roles, research positions, and provides a strong foundation for higher studies or entrepreneurship in materials science and engineering.
Student Success Practices
Foundation Stage
Strengthen Core Science & Math Fundamentals- (Semester 1-2)
Build a robust understanding of fundamental Physics, Chemistry, and Mathematics concepts. Utilize online platforms like Khan Academy and NPTEL for supplementary learning. Focus on problem-solving skills that are crucial for subsequent engineering courses and competitive exams.
Tools & Resources
NPTEL, Khan Academy, Departmental tutorials, Peer study groups
Career Connection
A strong foundation is essential for understanding advanced MME topics, excelling in core engineering roles, and performing well in competitive examinations for PSUs or higher studies.
Develop Foundational Computing & Programming Skills- (Semester 1-2)
Master basic programming (C/C++ as taught in initial courses) and computational logic. Engage in competitive programming platforms to hone problem-solving abilities and participate in campus coding contests. This is vital for modern materials simulation and data analysis.
Tools & Resources
HackerRank, CodeChef, GeeksforGeeks, Institution''''s computing lab resources
Career Connection
Essential for computational materials science, data analytics roles, and efficient use of simulation software in materials R&D and process optimization.
Cultivate Effective Study Habits & Early Networking- (Semester 1-2)
Establish consistent study routines, actively participate in class discussions, and form study groups with peers. Attend departmental seminars and introductory workshops to gain early exposure to the MME field. Start building a professional network with seniors and faculty members.
Tools & Resources
Library resources, Academic counseling, Department newsletters, Senior mentorship programs
Career Connection
Strong academic performance and early networking lay the groundwork for internships, research opportunities, and future career recommendations within the MME community.
Intermediate Stage
Engage in Practical & Laboratory Applications- (Semester 3-5)
Actively participate in all laboratory sessions for Physical Metallurgy, Materials Characterization, and Extractive Metallurgy. Seek opportunities for hands-on experience by assisting faculty in their research projects or participating in departmental initiatives and minor projects.
Tools & Resources
Departmental labs, Research facilities, Faculty project assistantships, Workshop practice sessions
Career Connection
Develops essential practical skills, experimental proficiency, and data interpretation, which are highly valued in R&D, quality control, and manufacturing roles in the materials industry.
Seek Early Industry Exposure & Internships- (After Semester 4 or 5)
Actively look for summer internships or industrial training opportunities in relevant sectors like steel, aluminum, composites, or ceramics after the 4th semester. Focus on understanding real-world manufacturing processes, quality control, and materials challenges. Leverage the career development center and alumni network.
Tools & Resources
NIT Rourkela Career Development Centre, LinkedIn, Industry contacts, Alumni network for referrals
Career Connection
Gaining practical industry experience is crucial for clarifying career interests, building a professional network, and significantly enhancing placement prospects in core companies.
Explore Specialization Avenues & Minor Projects- (Semester 3-5)
Beyond core coursework, actively explore various sub-fields of Metallurgical and Materials Engineering through seminars, workshops, and online resources. Undertake minor projects or research under faculty guidance to gain hands-on experience in specific areas like materials characterization, mechanical testing, or extractive processes.
Tools & Resources
Departmental research groups, Faculty members for guidance, Online learning platforms (e.g., Coursera for specialized topics), NPTEL advanced modules
Career Connection
Helps in identifying areas of interest for future electives and M.Tech specialization, building a project portfolio, and enhancing research aptitude for advanced studies or research positions.
Advanced Stage
Intensive Research & Thesis Work- (Semester 7-10)
Dedicate significant effort to the B.Tech and M.Tech project/thesis. This involves in-depth literature review, experimental design, rigorous data collection and analysis using advanced software, and meticulous report writing. Aim for publications in peer-reviewed journals or presentations at national/international conferences.
Tools & Resources
Advanced laboratory equipment, Simulation software (e.g., Ansys, Abaqus, Materials Studio), Academic databases (Scopus, Web of Science), LaTeX for thesis writing
Career Connection
Strong research output and publications significantly boost prospects for PhD admissions, high-level R&D roles in industry, and academic careers, both in India and abroad.
Targeted Skill Development & Certifications- (Semester 7-10)
Identify specific skill gaps for desired career paths (e.g., advanced materials characterization, corrosion engineering software, NDT techniques). Pursue relevant professional certifications or advanced workshops. Develop proficiency in industry-standard software for design (CAD), simulation (FEM), and data analysis specific to materials science.
Tools & Resources
NDT certifications (e.g., ASNT), NPTEL advanced courses, Coursera/edX specializations, Industry-specific software training
Career Connection
Directly enhances employability in specialized roles, providing a competitive edge in the Indian job market for positions like NDT inspector, materials analyst, or simulation engineer in diverse industries.
Comprehensive Placement & Career Planning- (Semester 8-10)
Actively prepare for campus placements, focusing on resume building, mock interviews, technical aptitude for core MME companies, and group discussions. Explore opportunities for public sector undertakings (PSUs) and government research organizations. Network extensively with alumni for mentorship and job referrals, and refine career goals.
Tools & Resources
Career Development Centre (CDC), Alumni network, Interview preparation guides and workshops, Professional body memberships (e.g., Indian Institute of Metals, TMS)
Career Connection
Secures high-quality placements in leading Indian and multinational companies, PSUs, or provides strong pathways for entrepreneurship and further academic pursuits in India''''s materials sector.
Program Structure and Curriculum
Eligibility:
- Successful qualification in JEE Main examination for B.Tech admission at NIT Rourkela, followed by standard 10+2 (Higher Secondary) eligibility criteria with Physics, Chemistry, and Mathematics.
Duration: 10 semesters / 5 years
Credits: 195 Credits
Assessment: Assessment pattern not specified
Semester-wise Curriculum Table
Semester 1
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| HS1001 | Communicative English | University Core | 3 | Reading Comprehension & Vocabulary, Sentence Structure & Grammar, Paragraph Writing & Essay Writing, Presentation Skills & Group Discussion, Formal & Informal Communication |
| MA1001 | Mathematics – I | University Core | 4 | Differential Calculus, Integral Calculus, Multivariable Calculus, Vector Calculus, Matrices & Determinants |
| PH1001 | Physics | University Core | 4 | Quantum Mechanics, Electromagnetic Theory, Wave Optics & Lasers, Solid State Physics, Relativity |
| CS1001 | Introduction to Computing | University Core | 3 | Programming Fundamentals (C language), Control Structures & Functions, Arrays, Pointers, Strings, Data Structures basics, File Handling |
| PH1091 | Physics Laboratory | Laboratory Core | 2 | Experimental Optics, Electricity & Magnetism Experiments, Semiconductor Devices, Error Analysis, Measurement Techniques |
| CS1091 | Computing Laboratory | Laboratory Core | 2 | C Programming Practice, Debugging & Testing, Algorithm Implementation, Problem Solving using C, Basic Linux Commands |
| EV1001 | Environmental Science | Mandatory Core | 2 | Ecology & Ecosystems, Environmental Pollution, Natural Resources, Biodiversity Conservation, Environmental Management |
Semester 2
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| HS1002 | Economics | University Core | 3 | Microeconomics Principles, Macroeconomics Concepts, Demand & Supply Analysis, Market Structures, Indian Economy Overview |
| MA1002 | Mathematics – II | University Core | 4 | Differential Equations (ODE, PDE), Laplace Transforms, Fourier Series, Complex Variables, Vector Spaces |
| CH1001 | Chemistry | University Core | 4 | Thermodynamics & Kinetics, Electrochemistry, Organic Chemistry basics, Spectroscopy, Corrosion Science |
| EE1001 | Basic Electrical Engineering | University Core | 3 | DC & AC Circuits, Transformers, Electrical Machines, Power Systems basics, Basic Electronics |
| CH1091 | Chemistry Laboratory | Laboratory Core | 2 | Volumetric Analysis, Gravimetric Analysis, Organic Synthesis, Instrumental Methods, Water Analysis |
| EE1091 | Basic Electrical Engineering Lab | Laboratory Core | 2 | DC & AC Circuit Experiments, Electrical Machine Testing, Power Measurement, Basic Electronic Components, Wiring & Safety |
| ME1091 | Engineering Drawing | University Core | 2 | Orthographic Projections, Isometric Projections, Sectional Views, Machine Drawing, CAD Introduction |
Semester 3
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| MA2003 | Mathematics - III | University Core | 4 | Probability Theory, Statistics & Distributions, Numerical Methods, Optimization Techniques, Regression Analysis |
| MM2001 | Thermodynamics of Materials | Core | 4 | Laws of Thermodynamics, Free Energy & Equilibrium, Phase Transformations, Chemical Reactions in Materials, Statistical Thermodynamics |
| MM2003 | Crystallography and Diffraction | Core | 4 | Crystal Systems & Lattices, Miller Indices, Crystal Imperfections, X-ray Diffraction Principles, Electron Diffraction |
| MM2005 | Physical Metallurgy | Core | 4 | Atomic Structure & Bonding, Crystal Structures, Phase Diagrams, Solidification, Diffusion in Solids |
| MM2091 | Materials Characterization Lab – I | Laboratory Core | 2 | Optical Microscopy, Microhardness Testing, Sample Preparation Techniques, Crystal Structure Determination, Fractography Basics |
| ME2093 | Workshop Practice | University Core | 2 | Fitting & Machining, Welding Techniques, Foundry Practice, Sheet Metal Work, Safety Practices |
Semester 4
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| BT1001 | Biology for Engineers | Mandatory Core | 2 | Cell Biology, Genetics & Biotechnology, Biomolecules, Microbiology, Bioengineering Applications |
| HS2003 | Organizational Behaviour | University Core | 3 | Individual Behavior, Group Dynamics, Leadership & Motivation, Organizational Culture, Conflict Management |
| MM2002 | Transport Phenomena in Materials | Core | 4 | Fluid Flow, Heat Transfer Mechanisms, Mass Transfer, Boundary Layer Theory, Dimensional Analysis |
| MM2004 | Iron and Steel Making | Core | 4 | Iron Ore Beneficiation, Blast Furnace Operation, Steelmaking Processes (BOF, EAF), Secondary Steelmaking, Continuous Casting |
| MM2006 | Mechanical Behaviour of Materials | Core | 4 | Elasticity & Plasticity, Stress-Strain Relationships, Fracture Mechanics, Fatigue & Creep, Hardness Testing |
| MM2092 | Physical Metallurgy Lab | Laboratory Core | 2 | Heat Treatment Experiments, Microstructural Analysis, Phase Transformation Studies, Grain Size Measurement, Mechanical Testing (Tensile, Impact) |
Semester 5
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| MM3001 | Non-Ferrous Extractive Metallurgy | Core | 4 | Hydrometallurgy, Pyrometallurgy, Electrometallurgy, Aluminum Extraction, Copper & Zinc Extraction |
| MM3003 | Engineering Materials | Core | 4 | Ferrous Alloys, Non-Ferrous Alloys, Polymers & Composites, Ceramics & Glasses, Smart Materials |
| MM3005 | Powder Metallurgy and Nanomaterials | Core | 4 | Powder Production & Compaction, Sintering Mechanisms, Properties of Powder Metallurgy Products, Nanomaterial Synthesis, Characterization of Nanomaterials |
| MM3007 | Corrosion and Degradation of Materials | Core | 4 | Electrochemical Corrosion, Corrosion Prevention, High Temperature Oxidation, Material Degradation Mechanisms, Corrosion Testing |
| MM3091 | Materials Characterization Lab – II | Laboratory Core | 2 | SEM & EDS Analysis, XRD Quantitative Analysis, Spectroscopic Techniques, Thermal Analysis (DTA, TGA), Corrosion Rate Measurement |
| MM3093 | Extractive Metallurgy Lab | Laboratory Core | 2 | Ore Beneficiation Experiments, Leaching Processes, Electrowinning, Slag Characterization, Fuel Combustion Analysis |
Semester 6
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| HS3001 | Professional Ethics | Mandatory Core | 2 | Ethical Theories, Engineering Ethics, Intellectual Property Rights, Corporate Social Responsibility, Safety & Risk Management |
| MM3002 | Heat Treatment of Alloys | Core | 4 | TTT & CCT Diagrams, Annealing & Normalizing, Hardening & Tempering, Surface Hardening, Thermo-mechanical Treatments |
| MM3004 | Materials Design and Selection | Core | 4 | Material Selection Criteria, Ashby Charts, Materials Databases, Lifecycle Assessment, Design for Manufacturing |
| MM3006 | Advanced Manufacturing Processes | Core | 4 | Additive Manufacturing, Forming Processes, Welding & Joining, Surface Engineering, Casting & Solidification |
| MM3092 | Mechanical Testing Lab | Laboratory Core | 2 | Tensile, Compression Tests, Impact & Fatigue Testing, Creep Testing, Hardness & Microhardness, Fracture Toughness |
| MM4099 | Summer Internship | Core | 2 | Industrial Exposure, Project Implementation, Report Writing, Presentation Skills, Problem Solving |
| MM4011 | Advanced Welding Technology | Elective | 3 | Welding Metallurgy, Advanced Welding Processes, Welding Defects & Inspection, Design of Welded Joints, Solid State Welding |
Semester 7
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| OE-I | Open Elective – I | Elective | 3 | Specific topics depend on chosen elective, outside the specialization. |
| MM4013 | Biomaterials | Elective | 3 | Biocompatibility, Metallic Biomaterials, Ceramic Biomaterials, Polymeric Biomaterials, Tissue Engineering |
| MM4001 | Numerical Methods in Materials Engineering | Core | 4 | Finite Difference Method, Finite Element Method, Computational Fluid Dynamics (CFD), Molecular Dynamics, Material Simulation Software |
| MM4003 | Polymer Science and Technology | Core | 4 | Polymerization Mechanisms, Polymer Structure & Properties, Polymer Processing, Polymer Composites, Degradation of Polymers |
| MM4091 | Metallurgical Process Lab | Laboratory Core | 2 | Rolling & Forging Experiments, Casting Defects Analysis, Heat Treatment of Steels, Welding Simulation, Powder Metallurgy Processing |
| MM4081 | Project – I (B.Tech.) | Project | 2 | Literature Review, Problem Definition, Methodology Design, Experimental Planning, Preliminary Data Analysis |
Semester 8
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| OE-II | Open Elective – II | Elective | 3 | Specific topics depend on chosen elective, outside the specialization. |
| MM5015 | Failure Analysis | Elective | 3 | Fracture Modes, Microscopic Techniques, Case Studies, Stress Concentration, Preventive Measures |
| MM4002 | Phase Transformations in Materials | Core | 4 | Nucleation & Growth, Diffusion Controlled Transformations, Martensitic Transformations, Precipitation Hardening, Spinodal Decomposition |
| MM4004 | Electronic, Magnetic & Optical Materials | Core | 4 | Semiconductor Physics, Magnetic Properties, Dielectric Materials, Optical Properties, Ferroelectrics |
| MM4082 | Project – II (B.Tech.) | Project | 6 | Experimental Work, Data Collection & Analysis, Results Interpretation, Report Writing, Final Presentation |
Semester 9
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| PE-IV | Program Elective – IV | Elective | 3 | Specific topics depend on chosen elective. (e.g., MM5021 Advanced Characterization Techniques) |
| PE-V | Program Elective – V | Elective | 3 | Specific topics depend on chosen elective. (e.g., MM5023 Composite Materials) |
| PE-VI | Program Elective – VI | Elective | 3 | Specific topics depend on chosen elective. (e.g., MM5025 Thin Film Technology) |
| MM5001 | Advanced Materials Science | Core | 4 | Advanced Thermodynamics, Kinetics of Phase Transformations, Defects & Dislocations, Interfaces & Grain Boundaries, Mechanical Behavior at Nano-scale |
| MM5081 | Project – I (M.Tech.) | Project | 5 | Research Proposal Development, Advanced Literature Review, Experimental Setup & Design, Preliminary Research Findings, Ethical Considerations |
Semester 10
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| PE-VII | Program Elective – VII | Elective | 3 | Specific topics depend on chosen elective. (e.g., MM5027 Computational Materials Science) |
| MM5082 | Project – II (M.Tech.) | Project | 14 | Extensive Research Work, Data Analysis & Interpretation, Thesis Writing, Oral Examination & Defense, Publication Preparation |
