Curriculum M.Tech Blended Mode
The proposed “Advanced Maintenance Technology” programme is offered for engineers who have been working / or have worked in industry/plant for 3 years or more and are thus aware of the maintenance procedures being followed in plant and are looking to extend their knowledge and update their qualifications with a view to career advancement. Engineers from industries, including the steel, automotive, pharmaceutical, nuclear, petrochemical and aerospace industries, may participate in this program. It does not require GATE qualification but selections will be made through a procedure of evaluation of applicants. This proposed programme will help build the fundamental knowledge base needed for predictive and preventive maintenance of both normal and complex, and critical systems and structures. The technical management aspects of maintenance technology will be covered so as to prepare the student for a range of roles associated with maintenance in plants, including critical areas.
The minimum time required to complete the program is two years. However, it can also be completed at relaxed pace within five years. The admissions will be made open once a year (i.e. Autumn Semester).
Name of the School | Name of the M.Tech programme |
School of Mechanical Sciences (SMS) | M.Tech. in Advanced Maintenance Technology |
School of Infrastructure (SIF) | |
School of Electrical Sciences (SES) | |
School of Minerals, Metallurgical and Materials Engineering (SMMME) |
Semester 1 | ||||
Sl. No. | Course No. | Course Name | L-T-P | Credits |
1 | HS7L002 | Research methodology and data analysis | 3-1-0 | 4 |
2 | ME6L001 | Vibrations | 3-1-0 | 4 |
3 | ME6L009 | Time Series Analysis of Dynamical Systems | 2-0-2 | 3 |
4 | Elective I | 3-0-0 | 3/4 | |
5 | Elective II | 3/4 | ||
6 | Measurement & Instrumentation Laboratory | 0-0-3 | 3 | |
7 | Seminar I | 0-0-4 | 3 | |
Total L-T-P and Credit | 14-3-8 | 23/25 | ||
Semester 2 | ||||
Sl. No. | Course No. | Course Name | L-T-P | Credits |
1 | ME6L009 | Engineering Measurements | 3-1-0 | 4 |
2 | ML6L021 | Corrosion Science and Engineering | 3-0-0 | 3 |
3 | Elective III | 3-0-0 | 3 | |
4 | Elective IV | 3-0-0 | 3 | |
5 | Corrosion & Vibration Laboratory | 0-0-3 | 3 | |
6 | Seminar II | 0-0-3 | 3 | |
7 | Thesis-Part I | 4 | ||
Total L-T-P and Credit | 15-2-6 | 23 | ||
Semester 3 | ||||
Sl. No. | Course No. | Course Name | L-T-P | Credits |
1 | Thesis – Part II | — | 18 | |
Total L-T-P and Credit | — | 18 | ||
Semester 4 | ||||
Sl. No. | Course No. | Course Name | L-T-P | Credits |
1 | Thesis – Part III | — | 18 | |
Total L-T-P and Credit | — | 18 |
Subject Name | Subject Code | L-T-P | Credit |
Elective- I & II | |||
Dynamics of Structure | CE6L301 | 3-1-0 | 4 |
Materials Design | ML6L010 | 3-0-0 | 3 |
Manufacturing planning and control | ME6L316 | 3-0-0 | 3 |
Fluid-Structure interaction and separated flow | ME6L169 | 3-0-0 | 3 |
Elective- III & IV | |||
Chaos in Dynamical Systems | ID6L003 | 3-0-0 | 3 |
Structural Health Monitoring | CE6L029 | 3-0-0 | 3 |
Design and analysis of welded structure | ME6L326 | 3-1-0 | 4 |
Instability of slender structural components | CE6L313 | 3-1-0 | 4 |
Introduction to Machine Learning for Engineers | ME5L00XX | 3-1-0 | 4 |