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M-TECH in Materials Science And Engineering at University of Mysore
Mysuru, Karnataka
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About the Specialization
What is Materials Science and Engineering at University of Mysore Mysuru?
This Materials Science and Engineering program at the University of Mysore focuses on the fundamental principles governing material structure, properties, processing, and performance. It equips students with advanced knowledge to innovate and develop new materials crucial for diverse Indian industries, including automotive, aerospace, electronics, and renewable energy, addressing the nation''''s growing technological demands.
Who Should Apply?
This program is ideal for engineering graduates (Mechanical, Electrical, Chemical, Metallurgical, Materials) and M.Sc. holders in Physics/Chemistry/Materials Science seeking specialization in advanced materials. It caters to those aspiring to careers in R&D, manufacturing, quality control, or academic research, particularly in high-tech sectors within India.
Why Choose This Course?
Graduates of this program can expect to pursue rewarding careers in India as Materials Scientists, Research Engineers, Process Engineers, or R&D Specialists. Entry-level salaries typically range from INR 4-7 LPA, with experienced professionals earning INR 10-25+ LPA. The program aligns with industry needs, fostering skills for certifications in areas like NDT, corrosion engineering, and advanced manufacturing.
Student Success Practices
Foundation Stage
Strengthen Core Materials Concepts- (Semester 1-2)
Dedicate time to thoroughly understand fundamental concepts of material structure, thermodynamics, and mechanical behavior. Form study groups, utilize university library resources, and solve advanced problems to build a strong theoretical base for specialized subjects.
Tools & Resources
NPTEL courses on Materials Science, Access to university library journals, Peer study groups
Career Connection
A strong foundation is critical for excelling in advanced subjects, cracking competitive exams (GATE, NET), and performing well in technical interviews for R&D roles in core industries.
Master Laboratory Techniques and Data Analysis- (Semester 1-2)
Actively engage in all laboratory sessions, focusing on understanding the working principles of characterization equipment (XRD, SEM, TEM) and mechanical testing machines. Practice meticulous data recording, analysis, and scientific report writing. Seek opportunities for extra lab hours.
Tools & Resources
University''''s Materials Characterization Lab, Origin/Matlab for data analysis, Academic writing workshops
Career Connection
Proficiency in experimental techniques and data interpretation is highly valued in R&D, quality control, and process engineering roles, enabling immediate contribution to industry projects.
Develop Technical Communication Skills- (Semester 1-2)
Participate actively in seminars and technical presentations, focusing on clarity, conciseness, and effective visual aids. Practice delivering complex technical information to diverse audiences, enhancing both written and oral communication capabilities.
Tools & Resources
Grammarly Premium, PowerPoint/Google Slides, Toastmasters clubs (if available)
Career Connection
Effective communication is essential for presenting research findings, collaborating in teams, and articulating ideas to stakeholders, crucial for leadership and project management roles in industry and academia.
Intermediate Stage
Undertake Industry-Relevant Mini Projects- (Semester 3)
Seek out faculty-mentored mini-projects or internships focusing on real-world materials challenges. This could involve exploring functional materials, degradation studies, or computational materials design, applying theoretical knowledge to practical problems.
Tools & Resources
Departmental research labs, Industry contacts through faculty, Open-source simulation software (e.g., LAMMPS, VASP tutorials)
Career Connection
Practical experience significantly boosts employability, provides networking opportunities, and helps identify areas of specialization, leading to better internship and placement offers from core materials companies.
Specialize through Electives and Advanced Learning- (Semester 3)
Carefully choose elective subjects that align with your career aspirations and emerging industry trends, such as additive manufacturing, biomaterials, or advanced composites. Supplement coursework with MOOCs and specialized workshops.
Tools & Resources
Coursera/edX for specialized courses, Industry workshops and conferences, Research papers in chosen area
Career Connection
Deep specialization makes you a more attractive candidate for niche roles in high-demand sectors like aerospace, biomedical, or advanced manufacturing, commanding higher salaries and faster career progression.
Network with Professionals and Researchers- (Semester 3)
Attend national/international conferences, seminars, and workshops in materials science. Engage with guest lecturers, alumni, and industry professionals. Join professional bodies like the Indian Institute of Metals (IIM) or Materials Research Society of India (MRSI).
Tools & Resources
LinkedIn, Professional society memberships, University alumni network
Career Connection
Networking opens doors to research collaborations, mentorship opportunities, and job referrals, proving invaluable for securing top placements and future career growth.
Advanced Stage
Excel in Master''''s Thesis/Project Work- (Semester 4)
Identify a challenging research problem, conduct thorough literature reviews, execute experiments or simulations rigorously, and produce high-quality original research. Aim for publication in peer-reviewed journals or presentation at conferences.
Tools & Resources
Research labs and equipment, Journal databases (Scopus, Web of Science), Academic writing support
Career Connection
A strong thesis demonstrates advanced research capabilities, critical thinking, and problem-solving skills, which are highly valued by both R&D organizations and for pursuing doctoral studies.
Prepare for Placements and Interviews- (Semester 4)
Regularly practice aptitude tests, technical interview questions (especially in your specialization), and group discussions. Prepare a compelling resume highlighting projects, publications, and skills relevant to materials science roles. Utilize university placement cell services.
Tools & Resources
University Placement Cell, Online aptitude platforms, Mock interview sessions
Career Connection
Proactive and targeted preparation ensures you are interview-ready, maximizing your chances of securing placements in leading materials-centric companies or government research labs.
Explore Entrepreneurship and Innovation- (Semester 4)
Consider how your materials science knowledge can translate into innovative products or services. Participate in university innovation challenges or startup incubators. Develop a business plan for a materials-related venture.
Tools & Resources
University Incubation Center, Startup India initiatives, Mentors in materials entrepreneurship
Career Connection
For those with an entrepreneurial drive, this stage can lead to launching a materials startup, contributing to India''''s innovation ecosystem, and creating job opportunities for others.
Program Structure and Curriculum
Eligibility:
- B.E./B.Tech. in Mechanical/Electrical/Electronics/Civil/Chemical/Metallurgical/Materials Science and Engineering OR M.Sc. in Physics/Chemistry/Materials Science/Nanoscience/Applied Physics/Applied Chemistry with a minimum of 50% aggregate marks (45% for SC/ST/Cat-I candidates).
Duration: 4 semesters / 2 years
Credits: 83 Credits
Assessment: Internal: 30% (Continuous Internal Evaluation - CIE), External: 70% (Semester End Examination - SEE)
Semester-wise Curriculum Table
Semester 1
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| MS 401 | Structure and Characterization of Materials | Core | 4 | Crystalline and Amorphous Structures, Defects in Solids, X-ray Diffraction, Electron Microscopy (SEM, TEM), Spectroscopy Techniques (EDS, XPS) |
| MS 402 | Thermodynamics and Kinetics of Materials | Core | 4 | Thermodynamic Laws and Potentials, Phase Equilibria, Diffusion in Solids, Phase Transformations, Chemical Kinetics |
| MS 403 | Mechanical Behavior of Materials | Core | 4 | Stress-Strain Relationships, Elasticity and Plasticity, Fracture Mechanics, Fatigue and Creep, Strengthening Mechanisms |
| MS 404 | Materials Science Laboratory - I | Lab | 2 | Metallography Techniques, Hardness Testing, Tensile Testing, Impact Testing, Microstructure Analysis |
| MS 405 | Seminar | Core | 1 | Literature Review, Technical Presentation Skills, Report Writing, Current Trends in Materials Science |
| MS 406E | Polymer Science and Technology | Elective | 4 | Polymer Synthesis, Polymer Structure and Properties, Polymer Processing, Elastomers and Composites, Polymer Applications |
Semester 2
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| MS 407 | Electrical, Magnetic and Optical Properties of Materials | Core | 4 | Conduction in Metals and Semiconductors, Dielectric Properties, Magnetic Domains and Hysteresis, Optical Absorption and Emission, Photonic Materials |
| MS 408 | Phase Transformations and Heat Treatment | Core | 4 | Nucleation and Growth, Diffusion-Controlled Transformations, Martensitic Transformations, Annealing and Normalizing, Hardenability and Tempering |
| MS 409 | Degradation of Materials | Core | 4 | Corrosion Mechanisms, Oxidation and High-Temperature Corrosion, Wear and Erosion, Environmental Degradation, Corrosion Prevention |
| MS 410 | Materials Science Laboratory - II | Lab | 2 | SEM-EDS Analysis, XRD Pattern Interpretation, Corrosion Rate Measurement, Heat Treatment Experiments, Magnetic Hysteresis Loops |
| MS 411 | Technical Writing and Research Methodology | Core | 2 | Scientific Report Structure, Literature Search Strategies, Data Analysis and Interpretation, Ethical Considerations in Research, Thesis and Paper Writing |
| MS 412E | Nanomaterials and Nanotechnology | Elective | 4 | Synthesis of Nanomaterials, Characterization of Nanomaterials, Quantum Size Effects, Applications of Nanomaterials, Ethics and Safety in Nanotechnology |
Semester 3
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| MS 501 | Computational Materials Science | Core | 4 | Density Functional Theory (DFT), Molecular Dynamics Simulations, Finite Element Analysis (FEA), Phase Field Modeling, Materials Design Software |
| MS 502 | Functional Materials | Core | 4 | Piezoelectric Materials, Ferroelectric Materials, Thermoelectric Materials, Shape Memory Alloys, Biomaterials |
| MS 503E | Additive Manufacturing of Materials | Elective | 4 | 3D Printing Technologies, Materials for Additive Manufacturing, Process Parameters and Defects, Post-Processing Techniques, Applications in Industry |
| MS 504E | Biomaterials and Tissue Engineering | Elective | 4 | Biocompatibility, Metallic Biomaterials, Ceramic and Polymer Biomaterials, Tissue Engineering Principles, Drug Delivery Systems |
| MS 505 | Project Work - I | Project | 6 | Problem Identification, Literature Survey, Methodology Development, Preliminary Experimental Work, Progress Report |
| MS 506 | Comprehensive Viva-Voce | Core | 2 | Overall Program Knowledge Assessment, Clarity of Concepts, Problem Solving Ability, Research Aptitude |
Semester 4
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| MS 507 | Project Work - II | Project | 20 | Advanced Research and Experimentation, Data Analysis and Interpretation, Thesis Writing, Journal Publication, Final Project Defense |
