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B-TECH-LATERAL-ENTRY 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 covers their extraction, processing, structure-property relationships, and application in diverse Indian industries like automotive, aerospace, and manufacturing. The program emphasizes innovative material design and sustainable processing relevant to national industrial growth.
Who Should Apply?
This program is ideal for diploma holders in metallurgy or related engineering fields aspiring for a B.Tech degree. It also suits working professionals in manufacturing or R&D looking to formalize their materials knowledge or transition into advanced materials roles. A strong foundation in physics, chemistry, and mathematics is a prerequisite for success.
Why Choose This Course?
Graduates of this program can expect promising career paths in India as metallurgists, materials engineers, R&D specialists, and quality control managers. Entry-level salaries typically range from INR 4-6 LPA, growing significantly with experience. Opportunities abound in PSUs, private manufacturing giants, and research institutions, contributing to India''''s self-reliance in advanced materials.
Student Success Practices
Foundation Stage
Master Core Concepts and Problem Solving- (Semester 3-4)
Focus on building a strong foundation in subjects like Thermodynamics, Strength of Materials, and Mathematics. Actively solve numerical problems from textbooks and previous year papers. Participate in peer study groups to clarify doubts and consolidate understanding of fundamental metallurgical principles.
Tools & Resources
Standard textbooks (e.g., Callister, Raghavan), NPTEL videos for foundational courses, Problem-solving sessions with faculty, Study groups
Career Connection
A strong conceptual base is crucial for cracking technical interviews and excelling in subsequent specialized courses, forming the bedrock for any materials engineering role.
Develop Hands-on Laboratory Skills- (Semester 3-4)
Pay close attention during all lab sessions (e.g., Physical Metallurgy Lab, Foundry Lab). Understand the principles behind each experiment, accurately record observations, and interpret results. Proactively seek opportunities for additional lab time or assistance from lab instructors.
Tools & Resources
Lab manuals, Microscopes and metallographs, Testing equipment, Lab journals
Career Connection
Practical skills are highly valued in the industry. Proficiency in characterization and processing techniques directly translates to roles in quality control, R&D, and production in manufacturing units.
Engage with Departmental Activities- (Semester 3-4)
Join the Metallurgy and Materials Technology student association (if available) or participate in departmental workshops and technical talks. This helps in understanding the broader scope of the field and networking with seniors and faculty members.
Tools & Resources
Departmental notice boards, Student club meetings, Seminars and workshops
Career Connection
Early exposure to industry trends and networking can open doors to mentorship, mini-project ideas, and awareness of niche career opportunities in India''''s materials sector.
Intermediate Stage
Undertake Mini-Projects and Industrial Visits- (Semester 5-6)
Actively pursue mini-projects (both academic and self-initiated) that apply theoretical knowledge to practical problems in areas like heat treatment or corrosion. Seek opportunities for industrial visits to steel plants, foundries, or materials manufacturing units in Maharashtra to see processes firsthand.
Tools & Resources
Faculty mentors, Departmental labs, Industry contacts through college placement cell, Local industrial hubs like Chakan, Ranjangaon
Career Connection
Project experience and industry exposure enhance your resume, demonstrate practical application skills, and provide valuable insights for future career choices and interviews.
Specialization through Electives and Certifications- (Semester 5-6)
Strategically choose professional electives based on your career interests (e.g., advanced welding, composites, biomaterials). Consider external certifications in NDT (Non-Destructive Testing) or specific software like ANSYS for materials simulation, which are highly sought after in India.
Tools & Resources
NPTEL courses, Coursera/edX for specialized topics, Certification bodies for NDT (e.g., ASNT equivalent in India), Faculty guidance
Career Connection
Specialized knowledge and certifications make you a more competitive candidate for specific roles in sectors like automotive, aerospace, or oil and gas, potentially leading to higher starting salaries.
Participate in Technical Competitions and Conferences- (Semester 5-6)
Join technical teams for events like ''''Robocon'''' or ''''SAE BAJA'''' to apply materials knowledge in design and fabrication. Present papers at student conferences or departmental symposiums to hone research and presentation skills.
Tools & Resources
Technical clubs, Departmental funds for conference participation, Online research databases
Career Connection
Such participations boost critical thinking, teamwork, and communication skills, which are vital for leadership roles and R&D positions in Indian manufacturing and research organizations.
Advanced Stage
Secure a Meaningful Internship/Industrial Training- (Semester 7)
Leverage COEP''''s strong industry ties to secure a 6-8 week internship at a reputable materials-related company (e.g., Tata Steel, Mahindra, DRDO). Focus on understanding real-world challenges, contributing to projects, and building professional relationships.
Tools & Resources
COEP Placement Cell, Alumni network, LinkedIn, Company career pages
Career Connection
A good internship often leads to a Pre-Placement Offer (PPO) and provides invaluable experience that sets you apart in the competitive Indian job market for core engineering roles.
Excel in Final Year Project and Viva Voce- (Semester 7-8)
Select a challenging and industry-relevant final year project. Dedicate sufficient time to research, experimentation, analysis, and report writing. Prepare thoroughly for the Comprehensive Viva Voce by reviewing all core subjects and their interconnections.
Tools & Resources
Project guide, Lab facilities, Research papers, Mock viva sessions
Career Connection
A strong project showcases your problem-solving abilities and research aptitude, highly valued by employers for R&D roles. Excelling in viva demonstrates comprehensive subject mastery, crucial for placement and higher studies.
Strategic Career Planning & Placement Preparation- (Semester 7-8)
Define your career goals (e.g., core industry, R&D, higher studies). Actively participate in campus placements, attend workshops on resume building, interview skills, and group discussions. Prepare for competitive exams like GATE if pursuing M.Tech or PSU jobs.
Tools & Resources
Placement Cell workshops, Mock interview platforms, GATE study materials, Career counselors
Career Connection
Proactive planning ensures you are well-prepared for placement drives, secure desirable jobs in leading Indian companies, or successfully pursue advanced degrees, positioning you for long-term career growth.
Program Structure and Curriculum
Eligibility:
- Diploma in Engineering/Technology in a relevant branch with minimum 60% aggregate marks, or B.Sc. degree with Mathematics as a subject and minimum 60% aggregate marks.
Duration: 3 years (6 semesters)
Credits: 144 Credits
Assessment: Internal: 30%, External: 70%
Semester-wise Curriculum Table
Semester 3
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| MT201 | Metallurgical Thermodynamics | Core | 4 | Laws of Thermodynamics, Free Energy Concepts, Phase Equilibria, Chemical Potentials, Thermodynamics of Solutions |
| MT202 | Strength of Materials | Core | 4 | Stress and Strain, Elastic Constants, Bending Moments, Shear Force, Torsion of Shafts |
| MT203 | Fluid Mechanics and Machinery | Core | 4 | Fluid Properties, Fluid Statics, Fluid Dynamics, Flow through Pipes, Hydraulic Turbines |
| EL201 | Elements of Electrical & Electronics Engineering | Core | 4 | DC & AC Circuits, Semiconductor Devices, Digital Logic, Sensors and Transducers, Basic Electrical Machines |
| MA201 | Engineering Mathematics III | Core | 4 | Laplace Transforms, Fourier Series, Partial Differential Equations, Vector Calculus, Probability and Statistics |
| MTL201 | Metallurgical Thermodynamics Lab | Lab | 1 | Heat Capacity Measurement, Phase Diagram Construction, Activity Measurements, Ellingham Diagrams, Thermodynamic Data Analysis |
| MTL202 | Strength of Materials Lab | Lab | 1 | Tensile Testing, Hardness Testing, Impact Testing, Torsion Testing, Deflection of Beams |
| MTL203 | Fluid Mechanics and Machinery Lab | Lab | 1 | Reynolds Experiment, Bernoulli''''s Theorem Verification, Centrifugal Pump Performance, Pipe Friction Loss, Flow Rate Measurement |
Semester 4
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| MT204 | Physical Metallurgy | Core | 4 | Crystallography, Imperfections in Crystals, Diffusion in Solids, Phase Diagrams, Solidification |
| MT205 | Metallurgical Characterization Techniques | Core | 4 | Optical Microscopy, Electron Microscopy (SEM, TEM), X-Ray Diffraction, Spectroscopy (EDS, WDS), Thermal Analysis (DTA, DSC) |
| MT206 | Foundry Engineering | Core | 4 | Moulding Materials, Pattern Making, Melting Furnaces, Casting Defects, Solidification of Castings |
| MT207 | Manufacturing Processes | Core | 4 | Forming Processes, Machining Processes, Joining Processes, Powder Metallurgy, Additive Manufacturing |
| MT208 | Engineering Materials Selection & Design | Core | 3 | Material Property Charts, Material Indices, Design for Performance, Cost Considerations, Environmental Impact |
| MTL204 | Physical Metallurgy Lab | Lab | 1 | Microstructure Examination, Grain Size Measurement, Phase Transformation Studies, Etching Techniques, Heat Treatment Response |
| MTL205 | Metallurgical Characterization Lab | Lab | 1 | SEM Imaging, XRD Pattern Analysis, Sample Preparation, EDS Compositional Analysis, Optical Micrograph Interpretation |
| MTL206 | Foundry Engineering Lab | Lab | 1 | Moulding Sand Testing, Pouring Practices, Mould Design, Defect Identification, Melting Practice |
Semester 5
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| MT301 | Heat Treatment of Metals | Core | 4 | Annealing and Normalizing, Hardening and Tempering, Surface Hardening, Isothermal Transformations, Thermomechanical Treatments |
| MT302 | Powder Metallurgy | Core | 4 | Powder Production, Compaction Techniques, Sintering Mechanisms, Secondary Operations, Applications of P/M Products |
| MT303 | Corrosion Engineering | Core | 4 | Electrochemistry of Corrosion, Types of Corrosion, Corrosion Prevention, Corrosion Testing, High-Temperature Oxidation |
| MT304 | Ferrous Extractive Metallurgy | Core | 4 | Iron Ore Beneficiation, Blast Furnace Operation, Steel Making Processes, Ferroalloys Production, Refractories |
| MTE3XX | Professional Elective - I | Elective | 3 | Advanced Welding Processes, Composite Materials, Biomaterials, Thin Film Technology, Nano Materials |
| MTL301 | Heat Treatment Lab | Lab | 1 | Jominy End Quench Test, Case Hardening, Annealing & Normalizing Experiments, Tempering Effects, Microstructural Changes |
| MTL302 | Powder Metallurgy Lab | Lab | 1 | Powder Characterization, Compaction Pressure Effects, Sintering Parameter Optimization, Density Measurement, Microstructure Analysis |
| MTL303 | Corrosion Engineering Lab | Lab | 1 | Potentiodynamic Polarization, Weight Loss Method, Crevice Corrosion Testing, Inhibitor Efficiency, Pitting Corrosion Analysis |
| MT351 | Mini Project - I | Project | 2 | Problem Identification, Literature Review, Experimental Design, Data Analysis, Report Writing |
Semester 6
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| MT305 | Non-Ferrous Extractive Metallurgy | Core | 4 | Aluminium Production, Copper Extraction, Zinc & Lead Smelting, Hydrometallurgy, Pyrometallurgy of Precious Metals |
| MT306 | Mechanical Metallurgy | Core | 4 | Elasticity and Plasticity, Yield Criteria, Fracture Mechanics, Fatigue, Creep |
| MT307 | Welding Technology | Core | 4 | Arc Welding Processes, Solid State Welding, Welding Metallurgy, Welding Defects, Welding Design |
| MTE3YY | Professional Elective - II | Elective | 3 | Nuclear Materials, Aerospace Materials, Smart Materials, Modelling & Simulation in Materials, Functional Materials |
| OEE3ZZ | Open Elective - I | Elective | 3 | Entrepreneurship Development, Project Management, Cyber Security, Human Rights, Foreign Language |
| MTL305 | Non-Ferrous Extractive Metallurgy Lab | Lab | 1 | Flotation Experiments, Leaching Studies, Electrowinning, Smelting Simulation, Metal Recovery |
| MTL306 | Mechanical Metallurgy Lab | Lab | 1 | Creep Testing, Fatigue Testing, Fracture Toughness, Superplasticity, Strain Hardening Exponents |
| MTL307 | Welding Technology Lab | Lab | 1 | SMAW/GMAW Practice, Welding Joint Preparation, Defect Inspection, Weld Microstructure, Destructive Weld Testing |
| MT352 | Mini Project - II | Project | 2 | Advanced Problem Solving, Prototype Development, Experimental Validation, Technical Presentation, Economic Analysis |
Semester 7
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| MT401 | Advanced Materials | Core | 4 | Composite Materials, Ceramics, Polymers, Nanomaterials, Biomaterials |
| MT402 | Surface Engineering | Core | 4 | Surface Treatment Processes, Coatings Technology, Thin Films, Surface Hardening, Characterization of Surfaces |
| MT403 | Non-Destructive Testing | Core | 3 | Visual Inspection, Radiography, Ultrasonic Testing, Magnetic Particle Testing, Liquid Penetrant Testing |
| MTE4XX | Professional Elective - III | Elective | 3 | Automotive Materials, Energy Materials, Environmental Degradation of Materials, Additive Manufacturing of Metals, Foundry Automation |
| OEE4YY | Open Elective - II | Elective | 3 | Data Analytics, Artificial Intelligence Basics, Supply Chain Management, Intellectual Property Rights, Technical Communication |
| MTL401 | Advanced Materials Lab | Lab | 1 | Composite Fabrication, Ceramic Processing, Polymer Characterization, Nanomaterial Synthesis, Mechanical Testing of Advanced Materials |
| MT450 | Seminar | Project | 2 | Technical Research, Topic Selection, Presentation Skills, Report Writing, Q&A Handling |
| MT455 | Industrial Training/Internship Evaluation | Practical | 2 | Industry Exposure, Practical Skill Application, Professional Etiquette, Project Documentation, Presentation of Learning |
| MT451 | Project Stage - I | Project | 4 | Problem Definition, Literature Survey, Methodology Development, Preliminary Design, Feasibility Study |
Semester 8
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| MT404 | Materials Characterization & Failure Analysis | Core | 4 | Advanced Microscopy, Spectroscopic Techniques, Fractography, Root Cause Analysis, Case Studies in Failure |
| MT405 | Computational Materials Science | Core | 4 | Density Functional Theory, Molecular Dynamics, Phase Field Modeling, Finite Element Analysis, Data-Driven Materials Design |
| MTE4ZZ | Professional Elective - IV | Elective | 3 | Corrosion in Specific Industries, Advanced Foundry Technology, Lightweight Alloys, Metal Recycling, Quality Control in Metallurgy |
| MT452 | Project Stage - II | Project | 8 | Experimental Execution, Results & Discussion, Thesis Writing, Presentation & Defense, Contribution to Knowledge |
| MT460 | Comprehensive Viva Voce | Viva Voce | 2 | Overall Program Knowledge, Subject Integration, Problem Solving, Communication Skills, Industry Relevance |
