The Postgraduate Program in Design Engineering aims to prepare the aspirants for prominent roles in Research & Development or Design functions of Engineering Industries.

The Program focuses on mechanical aspects and modern practices of design and its applications. The curriculum lays impetus on Failure Analysis and Prevention from the perspective of Structural Integrity in wide-ranging technological applications.

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Our practice-oriented pedagogical approach prepares students for challenging career options and enables them to design solutions to Industry problems and real-time situations. As part of the curriculum, students are trained extensively on Industry compliant design and analysis tools to make them competent and Industry-ready. The vibrant research ambiance on the University campus gives ample scope and motivation to students desirous in research and entrepreneurial career openings.

Course Curriculum
No Course L-T-P Credits Contact Hours ISA ESA Total Marks Exam Duration
01 Computational Methods in Engineering Analysis 3-1-0 04 05 50 50 100 3 hours
02 Finite Element Practice in Machine Design 3-1-0 04 05 50 50 100 3 hours
03 Failure of Materials in Mechanical Design 3-1-0 04 05 50 50 100 3 hours
04 Design of Pressure vessels 4-0-0 04 04 50 50 100 3 hours
05 Mechanics of Solids 4-0-0 04 04 50 50 100 3 hours
06 Integrated Product Design 4-0-0 04 04 50 50 100 3 hours
07 Automobile System Design 4-0-0 04 04 50 50 100 3 hours
08 Design and Analysis of Experiments 4-0-0 04 04 50 50 100 3 hours
09 Optimization Techniques in Design 4-0-0 04 04 50 50 100 3 hours
10 CAD Modelling Lab 0-0-5 05 10 80 20 100 2 hours
Total 17-3-5 25            
No Course L-T-P Credits Contact Hours ISA ESA Total Marks Exam Duration

01

 

Theory of Vibrations with Applications 3-1-0 04 05 50 50 100 3 hours
02 Dynamics and Mechanism design 3-1-0 04 05 50 50 100 3 hours
03 Research Methodology 2-1-0 03 04 100 100 NA
04 Multi Body Dynamics 4-0-0 04 04 50 50 100 3 hours
05 Engineering Tribology              
06 Mechanical Behaviour of Materials              
07 Applied Stress Analysis 4-0-0 04 05 50 50 100 3 hours
08 Fracture Mechanics              
09 Rotor Dynamics              
10 Analysis Lab 0-0-3 03 06 80 20 100 2 hours
11 Mini  Project 0-0-3 03 06 50 50 100 2 hours
Total 16-3-6 25            
No Course L-T-P Credits Contact Hours ISA ESA Total Marks Exam Duration

01

 

Industrial Training/ Mini Project 0-0-10 10 30 50 50 100 2 hours
02 Project Phase I 0-0-8 08 24 50 50 100 2 hours
Total 0-0-18 18            
No Course L-T-P Credits Contact Hours ISA ESA Total Marks Exam Duration

01

 

Project Phase II 0-0-20 20 40 50 50 100 2 hours
Total 0-0-20 20            
Programme Educational Objectives (PEOs)

Graduates will demonstrate technical competence in design of products, processes and systems as a solution to complex problems applying research and sustainability principles incorporating modern computing tools.

Graduates will be competent in their managerial roles striving towards attainment of professional and organizational goals with due adherence to professional ethics, team expectations and sensitivities of cultural diversity.

Graduates will practice engineering profession in corporate and governmental settings to meet stakeholder needs, thereby contributing to societal development.

Graduates will continuously upgrade to become proficient practitioners, engage in adapting new knowledge and

Programme Outcomes (POs)
  • Research Skills

    An ability to independently carry out research /investigation and development work to solve practical problems.

  • Communication

    An ability to write and present a substantial technical report/document.

  • Scholarship of Knowledge

    Students should be able to demonstrate a degree of mastery over the area as per the specialization of the program. The mastery should be at a level higher than the requirements in the appropriate bachelor program.

  • Use of Modern tool

    Ability to use modern computational tools in modeling, simulation and analysis of Design Engineering related problems with an understanding of their limitations.

  • Sustainable Designs

    An ability to select and integrate products and processes that account for long-term consumer satisfaction and environmental conservation.

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