Pursuing a Master of Technology (M.Tech) in Structural Design Engineering is a focused and specialized choice for working professionals interested in becoming experts in the field of structural engineering. This program typically delves deeply into the principles, analysis, and design of various structures, preparing graduates for roles in designing safe and efficient buildings, bridges, and other infrastructure projects. An M.
Tech program in Structural Design Engineering aims to provide students with advanced knowledge and skills related to structural analysis, design methodologies, and engineering principles. The program is designed to equip students with the expertise needed to ensure the safety and stability of various types of structures.
1. M.Tech- Structural Design Engineering for Working Professional is a degree course, recognized by UGC.
2. The program has four semesters adequately designed to nurture the professional with thorough knowledge of engineering subjects where classes are conducted online and with flexibility that is on weekends or after the business hours to suit the requirement of professionals.
3. Online exams are held with exam safety and appropriate assessments are done to evaluate the knowledge level of the candidate.
4. Experienced industry professionals, guest lecturers and renowned faculties take up classes and deliver lectures to make professional understand each and every concept of engineering.
5. The Dissertation enables students to comprehend the course and topics taught and apply in their current professional work.
6. An appropriate Evaluation system is used for assessment of the professionals at regular intervals and propels them to stay connected with the course programs and its application.
7. The students on successfully completion of the Degree Program are awarded with Master Degree in Structural Design Engineering.
| WILP M-TECH STRUCTURAL | |||||||||||
| M-TECH I | M-TECH II | M-TECH III | M-TECH IV | ||||||||
| S. No. | Course Name | Total Credit | S. No. | Course Name | Total Credit | S. No. | Course Name | Total Credit | S. No. | Course Name | Total Credit |
| 1 | NUMERICAL METHODS AND COMPUTER PROGRAMMING | 3 | 1 | EARTHQUAKE RESISTANT DESIGN OF STRUCTURES | 3 | 1 | DEPARTMENTAL ELECTIVE -III | 3 | 1 | ELECTIVE -IV | 3 |
| 2 | INDUSTRIAL MANAGEMENT | 3 | 2 | ADVANCE CONCRETE TECHNOLOGY | 3 | 2 | DEPARTMENTAL ELECTIVE -IV | 3 | 2 | DISSERTATION | 16 |
| 3 | ADVANCED STRUCTURAL ANALYSIS | 3 | 3 | DEPARTMENTAL ELECTIVE-I | 3 | 3 | MINOR DISSERTATION | 6 | |||
| 4 | BRIDGE ENGINEERING | 3 | 4 | DEPARTMENTAL ELECTIVE -II | 3 | ||||||
| 5 | ADVANCED STRUCTURAL ANALYSIS-LAB | 1 | 5 | CAD-LAB | 1 | ||||||
| 6 | NUMERICAL METHODS AND COMPUTER PROGRAMMING-LAB | 1 | 6 | ADVANCE CONCRETE TECHNOLOGY-LAB | 1 | ||||||
| ELECTIVE -I | ELECTIVE -II | ELECTIVE -III | ELECTIVE -IV |
| Advanced Foundation Engineering | Environmental Impact Assessment | Stability of Structures | Plastic Analysis and Design |
| Advance Prestressed Concrete Structures. | Finite Element Method | Advance Concrete Design | Composite Material |
Live & Recorded Lectures with cutting-edge tutorials.
Interact and Collaborate with Peers and Faculty
Online Mentoring
Use of Multimedia and Open Educational Resources
'Flipped' Classrooms
E-portfolio & Peer Assessment
Work Integrated Advantage
Experiential Learning
Academic & Industry Mentorship
Continuous Assessment
Dissertation/Project Work
