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Apply Now | M. Tech in Mechanical Engineering

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M. Tech | in Mechanical Engineering

MM(DU), Mullana offers M. Tech in Mechanical Engineering which is a minimum two years program for those regular students who have completed B.E./ B. Tech or equivalent degree in Mechanical Engineering from any recognized University with minimum 50% marks (45% in the case of SC/ ST category). M. Tech Mechanical Engineering program is designed to have specialization options in Manufacturing Systems and CAD / CAM. M. Tech. in Mechanical Engineering course will enable candidates to show up their spirit and skills of creativity and critical thinking. To successfully do this course, candidates should have strong analytical skills, creativity skills, ability to evaluate projects, and innovative mindset to solve the problems with the unique solutions.

Course Objective

  • To give basic and propelled learning and mastery so as to deliver equipped, innovative and creative specialists with a solid logical insight.
  • To practise mechanical engineering in help of the structure of designing frameworks through the use of the obtained information, abilities, and devices relevant to mechanical engineering.
  • To promote free and shared work, while exhibiting the expert and moral obligations of the engineering profession.
  • To advance the development of intellectual property by distributing articles in high effect factor Journals, patents and conference proceedings.

Course Outcome

  • a capacity to apply information of arithmetic, science and engineering in practice.
  • a capacity to recognize, analyse, define and take care of engineering issues with extensive information in the region of specialization.
  • a capacity to plan a framework and procedure to address wanted issues inside practical limitations, for example, manufacturability.
  • a capacity to contribute by research and development to tackle designing issues.
  • a capacity to work expertly with moral duty as a person just as in multidisciplinary groups with a positive attitude.
  • a capacity to welcome the significance of objective setting and to perceive the requirement forever long intelligent learning.

Curriculum

1st Semester
The course will cover the practical integration of individual pieces of automation and various levels of electronic control to create stand-alone automated fabrication and assembly systems. The learner will integrate a variety of manufacturing equipment to create, program and operate an automated manufacturing cell and an automated material handling cell (AMHC). Students will evaluate the requirements of implementing an FMS.
The finite element method and its applications to engineering problems: truss and frame structures, heat conduction, and linear elasticity; use of application software; overview of advanced topics such as structural dynamics, fluid flow, and nonlinear structural analysis.
The course will consist of lectures including principles of engineering, physics, electronics, mechanics, and computer programming.
Elective I
Gain practical exposure through different types of scientific programming problems and mathematical modelling. Students will able to solve wide range of engineering problems.
2nd Semester
This course is a practical application of knowledge pertaining to the safe set-up and operation of standard metal cutting machine tools, the correct and safe selection of cutting tools, R.P.M., feed rates and machining processes.

The course provides knowledge about experimental designs and analysis of data.

The course is designed to deliver the knowledge and skills of modern and advanced manufacturing techniques to M. Tech students so as to equip them with a holistic knowledge of the subject that will enable them to take on the practical applications of the learned concepts.
Elective II

This course introduces the concepts and capabilities of computer numerical control machine tools. Topics include setup, operation, and basic applications. Upon completion, students should be able to explain operator safety, machine protection, data input, program preparation, and program storage.

3rd Semester

The aim of this course is to introduce various system modelling and simulation techniques, and highlight their applications in different areas.

Emphasizes advanced calculations and machining operations on conventional lathes, milling machines, and surface grinders and their accessories. Introduces the basics of CNC programming and machining.
Tribology is an interdisciplinary course which deals with fundamentals of surface contact, friction, wear and lubrication. The course includes description and modelling of engineering surfaces, popular surface contact theories, major modes of friction, wear, lubrication and adhesion.
This course will cover basic concepts in Design and Optimization of Energy systems which is described as follows : Introduction to system design - Regression analysis and curve fitting - modelling of thermal equipment (very brief) - system simulation (successive substitution - Newton - Raphson method) - examples - economic analysis - optimization - Lagrange multipliers, search methods, linear programming, geometric programming- New generation optimization techniques - simulated annealing, Genetic Algorithms, Bayesian statistics.
This course helps students to improve oral and written communication skills and to set the stage for future recruitment by potential employers.
4th Semester
Emphasizes on off-the-shelf research to create new knowledge and explore future challenges. The researcher is expected to identify the research gaps, formulate objectives, and develop methodologies for finding solutions to real life problems.

Eligibility (Duration: 2 Years)

M. Tech in Mechanical Engineering: Passed Bachelor’s Degree in Engineering & Technology or equivalent in the relevant field.

Obtained at least 50% marks (45% in case of candidates belonging to reserved category) in the qualifying Examination

Career Opportunities

Profession openings after the fulfilment of M. Tech can be comprehensively divided into 4 sections. The 4 classes are:

  • Going for a research degree, for example, PhD.
  • Doing Job directly in the wake of finishing M. Tech.
  • Joining Engineering school as a Teacher.
  • Begin your very own association.

Fees

Course Course Fee 
Indian (INR) International (USD)
Tuition Fee Development Fee
M. Tech in Mechanical Engineering
80,000 20,000
-

Note:

  1. The Fee will have to be deposited at the time of Counselling.
  2. University Charges will be extra as per University norms.
  3. Fee once paid shall not be refunded under any circumstances.
  4. There will be an annual increase of 7% in tuition fee.
  5. Students Fund for all the students is Rs.2,000/- p.a.
  6. Life time Alumni Membership fee is Rs. 4,000/-.
  7. Hostel & Transport Charges will be extra.
  8. Students who wish to leave the Institute mid-stream, will have to deposit the fee for the remaining period of the course as per judgement of the Hon'ble Supreme Court in the case of Islamic Academy of Education and others Vs State of Karnataka & PA lnamdar case.
Admission Enquiry

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