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M.Tech in Civil Engineering with specialization in Structural Engineering

M.Tech in Civil Engineering with specialization in Structural Engineering

School of Engineering and Technology (SET)

  • Program Code

    00002

  • Level

    Post Graduate

  • Duration

    2 Years

About the Programme

M.Tech in Civil Engineering with specialisation in Construction Management is a two-year post-graduate programme aimed at shaping the student’s managerial and technical skills in the field of engineering.
The programme is streamlined to give insights on the advanced process of construction planning and how to ensure efficient and timely implementation of building and construction projects.
Students are imparted advanced learning in Resource Management, Project Management, Risk Management, Construction Optimisation Techniques, Procurement Management and Financial Planning & Procurement. The students are exposed to practical learning by working on real-world projects in the management lab, construction material lab, and quality practice labs integrated with the latest ICT software. The practical lab sessions require students to apply theoretical knowledge to realise their value through implementation. 
As India strives to develop its infrastructure and with the upcoming projects like 100 Smart Cities housing, there will be a pool of opportunities for the students graduating from this programme. The post-graduate programme will play a crucial role in developing industry-ready professionals.

This course is for individuals who...

possess strong motivational skills and understand the value of delivering work within the stipulated time. It is for aspirants who seek to grow in the construction industry on a higher pedestal.

Students who are looking for...

constant opportunities to attain technical management and leadership skills of professional construction management are an instant fit.

Course Fee
Fee Per Semester Fee Per Year
For National Students 49 500 95 000
For International Students 2550 5000
Course Structure

S.No.

Course Code

Course Title

L

T

P

Credits

1

CVL821

Advanced Mathematics in Structural Engineering

3

0

0

3

2

CVL702

Structural Dynamics

3

0

0

3

3

CVL703

Advanced Structural Analysis

3

0

0

3

4

CVL704

Advance Design of Steel Structures

3

1

0

4

5

PCM 109

Technical Presentation

1

0

2

2

5

CVP 658

Computer Aided SAD

0

0

4

2

7

CVL823

Advanced RCC Design (Elective-1)

3

0

0

3

 

Credits in Term 1

 

 

 

20

Syllabus for the Courses:

CVL821: Advanced Mathematics in Structural Engineering

After the completion of this course students will have a good knowledge of matrices ODE/PDE in structural engineering various numerical methods. Matrix methods are very useful in the analysis of structures.

CVL702: Structural Dynamics

This course will be helpful in understanding the dynamic behavior of structures. For the structural engineers it is very important to know the dynamic behavior of structures and the effect of Soil-Structure Interaction on structural response.

CVL703: Advanced Structural Analysis

After the completion of this course students will be able to understand matrix methods for the analysis of structures Computer Programs for Matrix Structural Analysis Review of basic structural engineering.

CVL704: Advance Design of Steel Structures

This course is about the Introduction to steel structures and their design as per IS 800. Students will also learn about the Prestressed steel construction.

CVP658: Computer Aided SAD

After doing this lab students will be able to design and analyze different types of beams frames and trusses. Students will also be able to designmultistory buildings Modeling Analysis and Design of Rectangular Water Tank Analysis and Design of Staircase Modeling and Design of Shear wall Modeling Analysis and Design of Overhead Transmission Line Towers Foundation Design

CVL823: Advanced RCC Design (Elective-1)

This is a very important design course for the structural engineers in which they will learn how to design flat Slabs Raft Foundation Pile Foundation and Pile Cap : Water Tanks and Domes Design of Cantilever and Counterfort Retaining Walls Design of Shear Walls Design of Deep Beams Design of Long Columns

S.No.

Course Code

Course Title

L

T

P

Credits

1

CVL 628

Finite Element Method of Structural Analysis

3

1

0

4

2

CVL 622

Theory of elasticity & plasticity

3

1

0

4

3

CVL 708

Earthquake Resistant Design of Structures

3

0

0

3

4

CVL 721

Prestressed Concrete Design

3

1

0

4

5

CVL 685

Term Paper

0

2

0

2

6

CVP 652

Structural Engineering Lab

0

0

4

2

7

CVL715

Advanced Concrete Technology (Elective-2)

3

0

0

3

 

Credits in Term 2

 

 

 

22

CVL628: Finite Element Method of Structural Analysis

Develop the finite element equations to model engineering problems Apply finite element method to formulate and solve structural problems Solve differential equations using the approximate numerical methods

CVL622: Theory of elasticity & plasticity

To develop the understanding of theory of elasticity and plasticity Plane stress and Plane strain Airy s stress function Saint Venant s principal problems in rectangular and polar co-ordinates Inverse and semi-inverse methods Analysis of bending of bars of narrow rectangular cross section formation of plastic hinge Example problems Thick Spherical shell- bursting pressure. Thick cylindrical tube autofrettage.

CVL708: Earthquake Resistant Design of Structures

To impart the knowledge of required seismic input for earthquake resistant design in particular response spectrum given in code acquaint the students with seismic design philosophy of structures (concrete steel and masonry) consistent with code provisions and practices. To make the students aware of the seismic behavior of different structural components and accordingly use fundamentals of flexural and combined flexural cum shear design for the elements.

CVL721: Prestressed Concrete Design

This course is about the Introduction to Prestressed Concrete Elastic Analysis Losses Deflections of Members and Transmission of Prestress Elastic analysis of prestressed concrete beams with different cable profiles Short Term and Long Term Losses Short term and long term deflections of cracked and uncracked members.

CVP652: Structural Engineering Lab

This lab will give the knowledge of Concrete Mix Design Test of Flexure on RCC Beam Test on Shear Using RCC Beam Test on Torsion using RCC Beam Test on Beam-Column Connection Test on Ferro-Cement Element

CVL715: Advanced Concrete Technology (Elective-2)

This course will give the knowledge of various types of concrete and their properties like Foams and lightweight materials fiber reinforced concrete. Being a structural engineer it is very important to have the knowledge materials and their properties.

S.No.

Course Code

Course Title

L

T

P

Credits

1

CVL681

Seminar

0

0

4

2

2

CVL682

Project

0

0

8

4

3

CVL 691

Dissertation Part-1     

0

0

20

10

 

Credits in Term 3

 

 

 

16

CVL681: Seminar

Seminar provides an opportunity to study in depth about an existing area of research and gain crucial written and oral communication skills necessary for dissemination of scientific and technical information.

CVL682: Project

Project work shall be carried out under the supervision of supervisor in the qualified concerned department. The student is given the opportunity to carry out indepth work in a field of his/her specialization and could be experimental field based or modeling studies or a combination thereof. The student shall be instructed to meet the supervisor periodically and to attend the review committee meetings for the evaluation process.

CVL691: Dissertation Part-1

S.No.

Course Code

Course Title

L

T

P

Credits

1

CVL 692

Dissertation Part-2

0

0

32

16

 

Credits in Term 4

 

 

 

16

Total Credits: 74

Minimum Credits essential for the Programme:

CVL692: Dissertation Part-2

Dissertation is a yearlong original research project carried out under the supervision of one or more academic/industrial expert and is expected to enhance the existing knowhow in that particular field of specialization. It is expected that the project work will result in scholarly publication and/or IPR. The Dissertation Work for M.Tech consists of Dissertation Work – I and Dissertation Work–II. Dissertation Work–I is to be undertaken during III semester and Dissertation II which is generally a continuation of Dissertation Work–I and is to be undertaken during IV semester.

Eligibility Criteria
For National Students
  • B.E./B.Tech. in Civil Engg. with minimum 60% marks.
  • GATE/NET Qualified students shall be preferred.
For International Students The eligibility criterion for all programs for international applicants is minimum 50% in the qualifying examination and having studied the pre-requisite subjects for admission in to the desired program.
Career path you can choose after the course
  • Bridge Engineer
  • Offshore Design Engineer
  • Forensic Engineer
  • Offshore Construction Engineer
  • Design Engineer
  • Structural Consultant

Students of this programme are placed in companies with an average annual package of 4.50 LPA to 12.00 LPA

Take the next step towards a career in engineering.

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