B.Tech (ME)

About B.Tech (ME)

About The Department

IIMT Engineering College is a constituent body of IIMT Group established in 2001 affiliated by Dr. A.P.J. Abdul Kalam Technical University Lucknow.
The Department of Mechanical Engineering is one of the oldest departments in IIMT Engineering College. B.Tech. Programme in Mechanical Engineering has been running from year 2001. The department has highly qualified faculty, staff members, and has well-equipped laboratories. The department possesses modern laboratories equipped with latest experimental set-ups and research facilities for experimental strength of materials, fluid mechanics, IC engines, automotive engineering, heat transfer, supported by software like CAD-CAM. CAD lab has Software’s like AUTOCAD, Catia etc.

To enrich the knowledge and to bridge the gap between industry and academia, the department organizes guest lectures from the Industry experts, Industrial visits, seminars and workshops on regular basis. Furthermore, our students acquire valuable skills in creative thinking, competitive examination and teamwork, which are highly sought after in any engineering industry, consulting and management. Mechanical engineers are no longer confined to the traditional industries of aerospace, automotive, and manufacturing, but also employed extensively in important emerging areas, such as robotics, micro-manufacturing and energy systems.

Program Educational Objectives

1. Impart knowledge of mathematics, basic and applied sciences.
2. Ability to identify, formulate and solve mechanical engineering problems based on data interpretation, design, experiment and analysis of results.
3. Learn effective engineering communication.
4. Ability to work in teams on multi-disciplinary projects in industry and research organizations.
5. Develop awareness of the ethical, professional and environmental implications of work in a global and societal context.
6. Ability to self-learn modern engineering tools, techniques, skills and contemporary engineering practice, necessary for engineering work.

Program Outcomes

The students of Bachelor of Engineering in Mechanical Engineering will have the ability to

1. Apply knowledge of mathematics, science, and engineering.
2. Design and conduct experiments, as well as to analyze and interpret data.
3. Design a system, component, or process to meet desired needs within realistic constraints such as economic, environmental, social, political, ethical, health and safety, manufacturability, and sustainability.
4. Function on multidisciplinary teams.
5. Identify, formulate and solve engineering problems.
6. Understand professional and ethical responsibility.
7. communicate effectively.
8. Understand the impact of engineering solutions in a global, economic, environmental, and societal context.
9. recognize the need to engage in life-long learning.
10. Attain knowledge of contemporary issues.
11. Use the techniques, skills, and modern engineering tools necessary for engineering practice.

Program specific outcomes

1: Ability to apply and analyses computational concepts in the areas related to algorithms, machine learning, cloud computing, web designing and web services.
2: Ability to apply standard practices and methodologies in software development and project management.
3: Ability to employ fundamental concepts and emerging technologies for innovative research activities, carrier opportunities & zeal for higher studies.

List of Laboratories

B.Tech ME

Laboratories

Second Year
THIRD SEMESTER
• Fluid Mechanics Lab ( KME351)
After the course, students should be able to:
1. To understand the principles and performance characteristics of flow and thermal devices.
2. To know about the measurement of the fluid properties.
3. To measure various properties of fluids and characterize the performance of fluid/thermal machinery.

• Material Testing Lab (KME352)
After the course, students should be able to:
1. To understand the principles and performance characteristics different materials.
2. To know about material properties.
3. To measure various properties of materials.

• Computer Aided Machine Drawing-I Lab (KME353)
After the course, students should be able to:
1. To provide an overview of how computers can be utilized in mechanical component design.
2. Upon completion of this course, the students can use computer and CAD software for modelling mechanical components.

• Mini Project or Internship Assessment (KME354)
After the course, students should be able to: 1. Discover potential research areas in the field of Mechanical.
2. Demonstrate a depth of knowledge of Mechanical Engineering.
3. Demonstrate knowledge of contemporary issues in their chosen field of research.
4. Demonstrate an ability to present and defend their research work to a panel of experts.

• Computer System Security (KNC301)
1.To be able to apply the knowledge of symmetric cryptography to implement simple ciphers. 2. To be able to analyze and implement public key algorithms.
3. To analyze and evaluate performance of hashing algorithms.
4. To explore the different network reconnaissance tools to gather information about networks.
5. To explore and use tools like sniffers, port scanners and other related tools for analysing packets in a network.
6. To be able to set up firewalls and intrusion detection systems using open source technologies and to explore email security

FOURTH SEMESTER
• Applied Thermodynamics Lab (KME451)
After the course, students should be able to:
1. To understand the principles and performance of various boilers and engines.
2. To identify various properties of system.

• Manufacturing Processes Lab (KME452)
After the course, students should be able to:
1. Understand and develop an appreciation of the processes in correlation with material properties.
2. Analyze change the shape, size and form of the raw materials into the desirable product by conventional or unconventional manufacturing methods.
3. To understand the different conventional and unconventional manufacturing methods employed for making different products.

• Computer Aided Machine Drawing-II Lab (KME453)
After the course, students should be able to:
1. Understand and implement mechanical component design.
2. To provide an overview of how computers can be utilized.
3. Understand the concepts of use computer and CAD software for modelling mechanical components.

• Python Programming (KNC401)
After the course, students should be able to:
1. To read and write simple Python programs.
2. To develop Python programs with conditionals and loops.
3. To define Python functions and to use Python data structures –- lists, tuples, dictionaries
4. To do input/output with files in Python.
5. To do searching ,sorting and merging in Python.

Third Year
FIFTH SEMESTER
• Heat Transfer LAB (KME 551)
At the end of course, the student will be able to:
1. Apply the concept of conductive heat transfer.
2. Apply empirical correlations for both forced and free convection to determine the value of convection heat transfer coefficient
3. Apply the concept of radiation heat transfer for black and grey body.
4. Analyze the thermal behaviour of parallel or counter flow heat exchangers
5. Conduct thermal analysis of a heat pipe

• Python Lab (KME 552)
At the end of course, the student will be able to:
1. Apply conditional statement, loops condition and functions in python program
2. Solve mathematical and mechanical problems using python program
3. Plot various type of chart using python program
4. Analyze the mechanical problem using python program

• Internet of Things Lab (KME 553)
At the end of course, the student will be able to:
1. Able to understand the application areas of IOT
2. Able to realize the revolution of Internet in Mobile Devices, Cloud & Sensor Networks
3. Able to understand building blocks of Internet of Things and characteristics.

• Mini Project or Internship Assessment (KME 554)
At the end of course, the student will be able to:
1. Discover potential research areas in the field of Mechanical.
2. Demonstrate a depth of knowledge of Mechanical Engineering.
3. Demonstrate knowledge of contemporary issues in their chosen field of research.
4. Demonstrate an ability to present and defend their research work to a panel of experts.

Fourth year
SEVENTH SEMESTER
• CAD/CAM Lab (RME751)
At the end of course, the student will be able to:
1. Implement steps required for modeling 3D objects by using various commands
2. Develops different views, sections of models.
3. Determine the isometric views and dimensioning of part models.
4. Machine simple components on CNC machines.
5. Applying CAM software to generate NC code.

• IC Engine & Automobile Lab (RME752)
At the end of course, the student will be able to:
1. Understand the Construction, working and other details about Internal Combustion Engines used in automobiles
2. Identify Construction, working, preventive maintenance, trouble shooting and diagnosis of various Automobile Systems.
3. Understand importance and features of different systems like axle, differential, brakes, steering, suspension, and balancing etc.
4. Identify Modern technology and safety measures used in Automotive Vehicles.

• INDUSTRIAL TRAINING (RME753)
At the end of course, the student will be able to:
1. To provide the learning platform to students to enhance their employ ability skills along with real corporate exposure.
2. To enhance students’ knowledge in current technology.

• PROJECT-1 (RME754)
At the end of course, the student will be able to:
1. Formulate a real world problem and develop its requirements.
2. Develop a design solution for a set of requirements.
3. Test and validate the conformance of the developed prototype against the original requirements of the problem.

EIGHTH SEMESTER
• SEMINAR (RME851)
At the end of course, the student will be able to:
1. Identify and analyze the real world problems and explore them.
2. Students will demonstrate the ability to discern the assignment's intended audience and objectives and respond appropriately.
3. Acquire awareness on latest technology and current trends
4. Participate in discussions for enhancement of knowledge 5. Adapt Professional ethics.

• PROJECT-2 (RME852)
At the end of course, the student will be able to:
1. Develop and describe the idea
2. Formulate clear work plan and procedures
3. Demonstrate skills and knowledge of state-of-the-art and technological tools and techniques
4. Design and apply modern tools for designing and drafting