The Department of Mechanical Engineering has been functioning since the inception of the college. It has best infrastructural facilities with highly qualified and talented faculties offering quality education in Mechanical Engineering. The department offers B.E. Degree program in Mechanical Engineering and M.E. Degree Program in CAD/CAM. The department has signed MOUs with many industries and strives to develop Industry-Institute interaction. The Department of Mechanical Engineering has an excellent infrastructure which is comparable that of best. The highly experienced faculty of the department contributes a vital role in Academic and Research. The Department is committed to provide high quality education in the field of Mechanical Engineering, emphasizing on Industrial applications to tomorrow’s technocrats.
1. To Impart knowledge to students in recent advances in the Computer Aided
Manufacturing to educate them to prosper in Manufacturing engineering and research
related professions.
2. To enhance the scientific and engineering fundamentals the provide students with a solid
foundation in required to solve analytical problems
3. To coach students with good design and engineering skills so as to comprehend, analyze,
design, and produce novel materials, products and solutions for the contemporary
manufacturing issues.
4. To inculcate students with professional and ethical attitude, effective communication skills,
teamwork skills, multidisciplinary approach, and an ability to relate Computer Integrated
Manufacturing engineering issues to broader engineering and social context.
1. An ability to independently carry out research/investigation and development work to
solve practical problems
2. An ability to write and present a substantial technical report/document
3. 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. Graduate will demonstrate skills to use modern engineering tools, software and
equipment to analyze engineering problems.
5. Graduates will demonstrate an ability to visualize and work on laboratory and
multidisciplinary tasks in the design and manufacturing applications
6. Responsibility of understanding ethically and professionally and develop confidence for
self-education and ability for life-long learning.
Semester
Course Code
Course Title
Course Outcome
I
ED4153
COMPUTER APPLICATIONS IN DESIGN
•Solve 2D and 3D transformations for the basic entities like line and circle
•Formulate the basic mathematics fundamental to CAD system.
• Use the different geometric modeling techniques like feature based modeling, surface
modeling and solid modeling
• Create geometric models through animation and transform them into real world systems,Simulate assembly of parts using Computer-Aided Design software.
I
CD4152
DESIGN FOR SUSTAINABILITY
• Select relevant process; apply the general design principles for manufacturability; GD&T.
• Apply design considerations while designing the cast and welded components
•Apply design considerations while designing the formed and machined components.
• Apply design considerations for assembled systems.
• Apply design considerations for environmental issues.
I
CC4101
ADVANCED MANUFACTURING PROCESSES
• At the end of the course, the student will be able to understand the working principle of Electron beam, laser beam and laser hybrid welding processes.
• Able to understand different types of composite material characteristics, types of micro & macro machining processes.
• Understand the e-manufacturing & nano materials
• To make the students get acquainted with the design for manufacturing, assembly and environment.
I
CC4102
COMPUTER AIDED TOOLS FOR MANUFACTURING
• The knowledge gained on engineering materials, fuels, energy sources and water treatment techniques will facilitate better understanding of engineering processes and applications for further learning.
I
RM4151
RESEARCH METHODOLOGY AND IPR
• Develop algorithmic solutions to simple computational problems
• Read, write, execute by hand simple Python programs.
• Structure simple Python programs for solving problems.
• Decompose a Python program into functions.
• Represent compound data using Python lists, tuples, dictionaries.
• Read and write data from/to files in Python Programs
I
CD4161
COMPUTER AIDED DESIGN LABORATORY
• Use the modern engineering tools necessary for engineering practice
• Draw 2D part drawings, sectional views, and assembly drawings as per standards
• Create 3D Model on any CAD software.
• Convert 3D solid models into 2D drawings and prepare different views, sections, and dimensioning of part models.
• Examine interference to ensure that parts will not interfere
I
PD4391
PRODUCT LIFECYCLE MANAGEMENT
• Summarize the history, concepts and terminology of PLM
• Use the functions and features of PLM/PDM
• Use different modules offered in commercial PLM/PDM tools.
• Implement PLM/PDM approaches for industrial applications.
• Integrate PLM/PDM with legacy data bases, CA & ERP systems
I
ED4251
FINITE ELEMENT METHODS IN MECHANICAL DESIGN
• Develop mathematical models for one dimensional problem and their numerical solutions
• Determine field variables for two-dimensional scalar and vector variable problems
• Apply Isoperimetric transformation and numerical integration for evaluation of element
matrices
• Apply various solution techniques to solve Eigen value problems
• Formulate solution techniques to solve non-linear problems
II
II4091
INDUSTRY 4.0
• Use Industry 4.0 for Industrial Applications
• Use IoT and IIoT for Industry 4.0
• Apply smart devices Industrial Applications
II
CC4211
RAPID PROTOTYPING LABORATORY
• Optimize the process parameters of FDM machine to improve the quality of the parts produced.
• Build complex engineering assemblies in plastic material with less process planning.
• Improve surface finish of fabricated plastic components for the engineering applications.
• Design and fabricate working models for the conceptual testing applications.
II
CC4312
PROJECT WORK I
• On Completion of the course the student will be able to
-Demonstrate a sound technical knowledge of their selected project topic. Undertake problem identification, formulation and solution.
-Design and manufacturing engineering solutions to complex problems utilising a
systems approach.
-The students will have a clear idea of their area of work, and they will be in a position to
carry out the remaining phase II work in a systematic way.
