About Program

The Post-graduate 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. Curriculum lays impetus on Failure Analysis and Prevention from the perspective of Structural Integrity in wide ranging technological applications. Our practice-oriented pedagogical approach, prepares students for challenging career options and enables them to design solutions to Industry problems and real-time situations.  Students as part of the curriculum are trained extensively on Industry compliant design and analysis tools, to make them competent and Industry-ready. The vibrant research ambience on University campus, gives ample scope and motivation to students desirous in research and entrepreneurial career openings.

Program Overview

  1. 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.
  2. 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.
  3. Graduates will practice engineering profession in corporate and governmental settings to meet stakeholder needs, thereby contributing to societal development.
  4. Graduates will continuously upgrade to become proficient practitioners, engage in adapting new knowledge and skills to meet the expectations of ever changing industry and pursue new careers.
  1. Research Skills: An ability to independently carry out research /investigation and development work to solve practical problems.
  2. Communication: An ability to write and present a substantial technical report/document.
  3. 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.
  4. 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.
  5. Sustainable Designs: An ability to select and integrate products and processes that account for long-term consumer satisfaction and environmental conservation.
Program Education Objectives (PEO's)
  1. 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.
  2. 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.
  3. Graduates will practice engineering profession in corporate and governmental settings to meet stakeholder needs, thereby contributing to societal development.
  4. Graduates will continuously upgrade to become proficient practitioners, engage in adapting new knowledge and skills to meet the expectations of ever changing industry and pursue new careers.
Program Outcomes (PO’s)
  1. Research Skills: An ability to independently carry out research /investigation and development work to solve practical problems.
  2. Communication: An ability to write and present a substantial technical report/document.
  3. 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.
  4. 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.
  5. Sustainable Designs: An ability to select and integrate products and processes that account for long-term consumer satisfaction and environmental conservation.

Course Curriculum

Semester I

No.CourseL-T-PCredits

Contact

Hours

ISAESA

Total

Marks

Exam

Duration

01Computational Methods in Engineering Analysis3-1-0040550501003 hours
02Finite Element Practice in Machine Design3-1-0040550501003 hours
03Failure of Materials in Mechanical Design3-1-0040550501003 hours
04Design of Pressure vessels4-0-0040450501003 hours
Mechanics of  Solids
Integrated Product Design
05Automobile System Design4-0-0040450501003 hours
Design and Analysis of Experiments
Optimization Techniques in Design
06CAD Modelling Lab0-0-5051080201002 hours
Total17-3-525

 

Semester II

No.CourseL-T-PCredits

Contact

Hours

ISAESA

Total

Marks

Exam

Duration

01

 

Theory of Vibrations with Applications3-1-0040550501003 hours
02Dynamics and Mechanism design3-1-0040550501003 hours
03Research Methodology2-1-00304100100NA
04Multi Body Dynamics4-0-0040450501003 hours
Engineering Tribology
Mechanical Behaviour of Materials
05Applied Stress Analysis4-0-0040550501003 hours
Fracture Mechanics
Rotor Dynamics
06Analysis Lab0-0-3030680201002 hours
07Mini  Project0-0-3030650501002 hours
Total16-3-625

Semester III

No.CourseL-T-PCredits

Contact

Hours

ISAESA

Total

Marks

Exam

Duration

01Industrial Training/ Mini Project0-0-10103050501002 hours
02Project Phase I0-0-882450501002 hours
Total0-0-1818

 

 

Semester IV

No.CourseL-T-PCredits

Contact

Hours

ISAESA

Total

Marks

Exam

Duration

01Project Phase II0-0-20204050501002 hours
Total0-0-2020

Admissions

Admission Opens At

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Contact Details

  • E-mail
    info@kletech.ac.in
  • Phone number
    HOD : 0836 2378280
    Office : 0836 2378281

Enquire Now