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B-TECH in Metallurgy And Materials Technology at COEP Technological University
Pune, Maharashtra
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About the Specialization
What is Metallurgy and Materials Technology at COEP Technological University Pune?
This Metallurgy and Materials Technology program at COEP Technological University focuses on the science and engineering of metals, ceramics, polymers, and composites. It delves into the extraction, processing, design, and performance of materials crucial for various Indian industries like automotive, aerospace, defense, and manufacturing. The program emphasizes innovative material solutions and sustainable practices relevant to India''''s growing industrial landscape.
Who Should Apply?
This program is ideal for fresh graduates with a strong foundation in science and mathematics, particularly those keen on understanding how materials behave and can be engineered. It''''s also suited for working professionals in manufacturing or R&D looking to specialize in advanced materials, and career changers aiming to transition into the materials-intensive sectors of the Indian economy, requiring a prior background in engineering or applied sciences.
Why Choose This Course?
Graduates of this program can expect diverse India-specific career paths in core manufacturing, R&D, quality control, and materials selection. Entry-level salaries typically range from INR 4-7 LPA, growing significantly with experience in companies like Tata Steel, Hindalco, and DRDO. The program aligns with professional certifications in NDT (Non-Destructive Testing) and welding, boosting career growth trajectories in materials engineering roles across India.
Student Success Practices
Foundation Stage
Strengthen Engineering Fundamentals- (Semester 1-2)
Focus intensely on core engineering subjects like Mathematics, Physics, Chemistry, and Basic Engineering disciplines during the initial semesters. Utilize online platforms like NPTEL for supplementary learning and solve previous year''''s question papers to build a strong conceptual base.
Tools & Resources
NPTEL courses, Previous year question papers, Reference textbooks, Peer study groups
Career Connection
A solid foundation in these subjects is critical for understanding advanced metallurgy and materials concepts, which directly impacts performance in technical interviews and problem-solving in industrial roles.
Develop Communication and Presentation Skills- (Semester 1-2)
Actively participate in communication skills workshops, debates, and technical presentation opportunities. Join student clubs like Toastmasters or departmental societies to regularly practice public speaking and technical writing, which are vital for future professional interactions.
Tools & Resources
Toastmasters International (local chapters), COEP Communication Skills Lab, Technical report writing guides
Career Connection
Effective communication skills are highly valued by recruiters for roles requiring client interaction, project management, and presenting research findings, significantly improving placement prospects.
Engage in Basic Workshop and Lab Practices- (Semester 1-2)
Maximize learning from initial workshop and basic science labs. Understand the practical applications of theoretical concepts and develop hands-on skills in basic fabrication, measurement, and material handling, documenting all observations diligently.
Tools & Resources
Lab manuals, Workshop technicians as mentors, YouTube tutorials for basic operations
Career Connection
Early exposure to practical work fosters an engineering mindset and provides foundational skills that are essential for later specialized metallurgy labs and industrial internships.
Intermediate Stage
Master Core Metallurgy Concepts with Practical Applications- (Semester 3-5)
Deeply engage with core metallurgy subjects like Thermodynamics, Physical Metallurgy, and Extractive Metallurgy. Link theoretical knowledge to lab experiments and real-world industrial processes by visiting local foundries, heat treatment shops, or material testing facilities.
Tools & Resources
COEP Metallurgy labs, Industrial visits to Pune/Pimpri-Chinchwad industries, ASM International Handbooks
Career Connection
A strong grasp of core metallurgical principles, backed by practical understanding, makes you a valuable candidate for core engineering roles in steel, aluminum, and manufacturing sectors.
Participate in Technical Projects and Competitions- (Semester 3-5)
Undertake mini-projects, either individually or in teams, related to materials characterization, process optimization, or new material development. Participate in national-level technical competitions like those organized by the Indian Institute of Metals (IIM) or other engineering bodies.
Tools & Resources
Departmental project funding, Faculty mentors, IIM (Indian Institute of Metals) student chapters
Career Connection
Project experience demonstrates problem-solving abilities and practical skills, making your resume stand out to potential employers and preparing you for R&D roles or higher studies.
Network with Industry Professionals and Alumni- (Semester 3-5)
Attend guest lectures, industry seminars, and alumni meets organized by the department or COEP. Actively engage with professionals to understand current industry trends, career paths, and internship opportunities, leveraging COEP''''s strong alumni network.
Tools & Resources
LinkedIn, COEP Alumni Association events, Departmental industry interaction cells
Career Connection
Networking opens doors to internships, mentorship, and job opportunities, providing insights into specific roles and helping you build valuable professional relationships in the Indian materials industry.
Advanced Stage
Specialize through Electives and Advanced Research- (Semester 6-8)
Carefully choose electives that align with your career interests (e.g., Nanomaterials, Composites, Welding). Pursue advanced research through your final year project, aiming for publications in conferences or journals, showcasing specialized expertise.
Tools & Resources
Research papers via institutional subscriptions, Faculty expertise, Advanced lab facilities
Career Connection
Specialized knowledge and research output demonstrate deep expertise, making you highly desirable for R&D roles, product development, or pursuing M.Tech/Ph.D. in India or abroad.
Focus on Industry-Relevant Certifications and Internships- (Semester 6-8)
Pursue certifications relevant to the metallurgy field such as NDT Level I/II (Non-Destructive Testing), welding inspector, or software proficiency in material modeling tools (e.g., ANSYS, ABAQUS). Secure a long-term internship to gain significant industry exposure.
Tools & Resources
Indian Society for Non-Destructive Testing (ISNT) chapters, Indian Institute of Welding (IIW), Industry internship portals
Career Connection
Certifications directly enhance employability in quality control, inspection, and manufacturing. A strong internship record often leads to direct placements in leading companies in India.
Intensive Placement and Career Planning- (Semester 6-8)
Engage in rigorous aptitude test preparation, technical interview practice, and group discussion sessions. Attend mock interviews and career counseling workshops organized by the placement cell, tailoring your resume and interview responses to specific company requirements in the materials sector.
Tools & Resources
COEP Placement Cell, Online aptitude platforms (e.g., Indiabix), Mock interview panels with alumni/faculty
Career Connection
Comprehensive preparation is key to securing coveted positions in top Indian and multinational companies recruiting from COEP, ensuring a smooth transition into your professional career.
Program Structure and Curriculum
Eligibility:
- HSC (10+2) with Physics and Mathematics as compulsory subjects along with one of Chemistry/Biotechnology/Biology/Technical Vocational subjects. Minimum 45% marks (40% for Backward Class categories and Persons with Disability candidates belonging to Maharashtra State only) in the above subjects taken together. Appeared in MHT-CET 2024 or JEE Main 2024 (Paper I).
Duration: 8 semesters / 4 years
Credits: 170 Credits
Assessment: Internal: Continuous Assessment (CA) and Practical/Oral assessments contribute to internal marks., External: End Semester Examination (ESE) contributes to external marks.
Semester-wise Curriculum Table
Semester 1
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| HS101 | Communication Skills | Core | 2 | Fundamentals of Communication, Written Communication, Verbal Communication, Interpersonal Skills, Presentation Skills |
| AS101 | Engineering Mathematics - I | Core | 4 | Differential Calculus, Integral Calculus, Linear Algebra, Vector Calculus, Differential Equations |
| AS103 | Engineering Physics | Core | 3 | Wave Optics, Quantum Mechanics, Statistical Mechanics, Material Science, Nuclear Physics |
| AS105 | Engineering Chemistry | Core | 3 | Electrochemistry, Corrosion, Polymer Chemistry, Water Treatment, Spectroscopy |
| ME101 | Engineering Graphics | Core | 3 | Orthographic Projections, Isometric Projections, Sectional Views, Development of Surfaces, Computer Aided Drafting |
| AS107 | Engineering Physics Lab | Lab | 1 | Experiments on Optics, Semiconductor Devices, Magnetic Materials, Ultrasonics, Oscillations |
| AS109 | Engineering Chemistry Lab | Lab | 1 | Volumetric Analysis, Instrumental Methods, Water Analysis, Polymer Synthesis, Fuel Analysis |
| ME103 | Workshop Practice | Lab | 2 | Fitting, Carpentry, Welding, Sheet Metal Work, Foundry |
| ME105 | Basic Mechanical Engineering | Core | 3 | Thermodynamics, Power Plants, Fluid Mechanics, Manufacturing Processes, Machine Elements |
Semester 2
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| AS102 | Engineering Mathematics - II | Core | 4 | Laplace Transforms, Fourier Series, Complex Variables, Partial Differential Equations, Numerical Methods |
| EE101 | Basic Electrical Engineering | Core | 3 | DC Circuits, AC Circuits, Transformers, DC Machines, AC Machines |
| CE101 | Basic Civil and Environmental Engineering | Core | 3 | Building Materials, Surveying, Environmental Pollution, Water Resources, Disaster Management |
| CS101 | Programming and Problem Solving | Core | 3 | Introduction to Programming, Control Flow, Functions, Arrays and Strings, Data Structures |
| EC101 | Basic Electronics Engineering | Core | 3 | Semiconductor Devices, Rectifiers and Filters, Transistors, Operational Amplifiers, Digital Logic Gates |
| EE103 | Basic Electrical Engineering Lab | Lab | 1 | Verification of Network Theorems, Measurement of Power, Transformer Characteristics, Motor Speed Control, Circuit Simulation |
| CS103 | Programming and Problem Solving Lab | Lab | 1 | C Programming, Debugging Techniques, Algorithm Implementation, Data Structure Operations, Problem Solving Exercises |
| EC103 | Basic Electronics Engineering Lab | Lab | 1 | Diode Characteristics, Transistor Amplifier, Op-Amp Circuits, Logic Gate Implementation, Breadboarding |
| CE103 | Environmental Science | Core | 2 | Ecology and Ecosystems, Biodiversity, Natural Resources, Pollution and Control, Environmental Ethics |
Semester 3
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| AS201 | Engineering Mathematics - III | Core | 4 | Transforms (Fourier, Z), Vector Spaces, Partial Differential Equations, Probability and Statistics, Numerical Optimization |
| MT201 | Metallurgical Thermodynamics | Core | 4 | Laws of Thermodynamics, Phase Equilibria, Chemical Potentials, Ellingham Diagrams, Solutions and Mixtures |
| MT203 | Physical Metallurgy - I | Core | 4 | Atomic Structure, Crystal Systems, Crystallography, Imperfections in Crystals, Diffusion |
| MT205 | Mineral Dressing and Extractive Metallurgy | Core | 4 | Comminution, Sizing and Classification, Gravity Concentration, Flotation, Hydrometallurgy |
| MT207 | Materials Characterization Techniques | Core | 4 | Optical Microscopy, Electron Microscopy (SEM, TEM), X-Ray Diffraction, Spectroscopy (EDS, WDS), Thermal Analysis |
| MT209 | Physical Metallurgy Lab - I | Lab | 1 | Microstructure Examination, Grain Size Measurement, Hardness Testing, Creep Testing, Impact Testing |
| MT211 | Extractive Metallurgy Lab | Lab | 1 | Crushing and Grinding, Flotation Experiments, Leaching Studies, Electrolytic Refining, Pyrometallurgical Processes |
Semester 4
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| AS202 | Engineering Mathematics - IV | Core | 4 | Numerical Methods, Graph Theory, Discrete Mathematics, Optimization Techniques, Statistical Process Control |
| MT202 | Heat Treatment | Core | 4 | Iron-Carbon Diagram, TTT and CCT Diagrams, Annealing, Normalizing, Hardening and Tempering |
| MT204 | Physical Metallurgy - II | Core | 4 | Phase Diagrams, Solidification, Nucleation and Growth, Deformation Mechanisms, Fracture and Fatigue |
| MT206 | Foundry Technology | Core | 4 | Moulding Materials, Moulding Processes, Melting Furnaces, Solidification of Castings, Casting Defects |
| MT208 | Corrosion and Degradation of Materials | Core | 4 | Electrochemical Principles, Types of Corrosion, Corrosion Prevention, High Temperature Corrosion, Environmental Degradation |
| MT210 | Physical Metallurgy Lab - II | Lab | 1 | Heat Treatment Experiments, Phase Diagram Analysis, Fracture Surface Analysis, Fatigue Testing, Creep Curve Generation |
| MT212 | Foundry Lab | Lab | 1 | Sand Testing, Pattern Making, Moulding Practice, Casting Production, Casting Defect Analysis |
Semester 5
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| MT301 | Mechanical Metallurgy | Core | 4 | Stress and Strain, Elasticity and Plasticity, Yield Criteria, Work Hardening, Fracture Mechanics |
| MT303 | Powder Metallurgy | Core | 4 | Powder Production, Compaction, Sintering, Powder Metallurgy Products, Characterization of Powders |
| MT305 | Welding and Joining Technology | Core | 4 | Arc Welding Processes, Resistance Welding, Solid State Welding, Brazing and Soldering, Weldability |
| MT307 | Non-Destructive Testing | Core | 4 | Visual Inspection, Liquid Penetrant Testing, Magnetic Particle Testing, Ultrasonic Testing, Radiography |
| MT309 | Mechanical Metallurgy Lab | Lab | 1 | Tensile Testing, Compression Testing, Torsion Testing, Formability Tests, Creep and Fatigue Testing |
| MT311 | Powder Metallurgy Lab | Lab | 1 | Powder Particle Size Analysis, Density Measurement, Compaction Studies, Sintering Studies, Powder Product Characterization |
| HS301 | Professional Ethics | Core | 2 | Ethical Theories, Professional Responsibility, Safety and Risk, Intellectual Property, Environmental Ethics |
Semester 6
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| MT302 | Surface Engineering | Core | 4 | Surface Hardening, Coatings, Thermal Spraying, PVD and CVD, Surface Modification Techniques |
| MT304 | Composite Materials | Core | 4 | Fiber Reinforced Composites, Particulate Composites, Laminar Composites, Composite Manufacturing, Mechanical Behavior of Composites |
| MT306 | Nano Materials and Technology | Core | 4 | Synthesis of Nanomaterials, Characterization of Nanomaterials, Quantum Dots, Carbon Nanostructures, Applications of Nanomaterials |
| MT308 | Metallurgical Process Modeling and Simulation | Core | 4 | Finite Element Analysis, Computational Fluid Dynamics, Process Optimization, Microstructure Modeling, Software Applications |
| MT310 | Advanced Materials Lab | Lab | 1 | Composite Fabrication, Nano-material Synthesis, Surface Coating Techniques, Characterization of Advanced Materials, Process Parameter Optimization |
| MT312 | CAD/CAM Lab for Materials Engineering | Lab | 1 | CAD Software for Materials Design, FEM Simulations, CAM Programming, Process Flow Simulation, Material Selection Databases |
| MT314 | Industrial Training/Internship | Project/Internship | 2 | Industry Exposure, Practical Skill Development, Report Writing, Presentation Skills, Problem Solving in Industry |
Semester 7
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| MT401 | Metallurgical Furnaces and Refractories | Core | 4 | Types of Furnaces, Combustion Principles, Heat Transfer in Furnaces, Refractory Materials, Furnace Design |
| MT403 | Ferrous Physical Metallurgy | Core | 4 | Carbon Steels, Alloy Steels, Cast Irons, Stainless Steels, High-Temperature Alloys |
| MT405 | Elective - I | Elective | 4 | |
| MT407 | Elective - II | Elective | 4 | |
| MT409 | Project - I | Project | 4 | Problem Identification, Literature Review, Methodology Development, Preliminary Results, Report Writing |
| MT411 | Seminar | Core | 2 | Topic Selection, Research and Analysis, Presentation Skills, Technical Communication, Question and Answer Session |
Semester 8
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| MT402 | Non-Ferrous Physical Metallurgy | Core | 4 | Aluminum Alloys, Copper Alloys, Titanium Alloys, Magnesium Alloys, Nickel and Cobalt Alloys |
| MT404 | Materials for Special Applications | Core | 4 | Biomaterials, Aerospace Materials, Automotive Materials, Electronic Materials, Nuclear Materials |
| MT406 | Elective - III | Elective | 4 | |
| MT408 | Elective - IV | Elective | 4 | |
| MT410 | Project - II | Project | 8 | Experimental Design, Data Analysis, Results Interpretation, Final Report Writing, Project Defense |
