ABOUT THE DEPARTMENT :
The Department of Mechanical Engineering started functioning since inception of Gayatri Vidya Parishad College of Engineering in the year 1996. The department has a team of highly qualified faculty members, many holding Ph.D`s from the elite institutes like IIT's and NIT's and universities abroad. The pride of the department lies in receiving 40 research and consultancy projects worth Rs. 2.2 Crores as research funding from several Government agencies such as DST, DRDO, UGC, AICTE etc. Modern facilities, like 6-axis and 4 axis industrial robots, Parallel Kinematic machines and, Delta Robot 3D printing machine, Coordinate Measuring Machine (CMM) with CAM2 smart inspect pro, Ultrasonic plastic and metal welding machine enabling cutting edge research in a wide spectrum of technological areas are available in the department. The department has a robotics lab established with a combined funding from the Department of Science and Technology, Govt. of India under FIST scheme in 2016.The department also have Memoranda of Understanding (MoUs) with various Industry Research Organizations and four patents have been granted for the innovations in the department.
The courses offered by the department cater to the needs of Aerospace, Defense, Manufacturing, Energy and Automotive industries. This has enabled the students to pursue higher studies in leading Universities in India and abroad. Two Bachelor's Degree Programmes are offered by the department viz. B.Tech. Mechanical Engineering accredited by National Board of Accreditation(NBA) with an intake of 120 students and B.Tech. Mechanical Engineering with specialization in Robotics started in the academic year 2020-2021 with an intake of 60 students. The department offers one post graduate program viz. M.Tech in CAD/CAM with an intake of 18 students.
VISION OF THE DEPARTMENT :
To become a sought after center for higher learning and application in the field of Mechanical Engineering
MISSION OF THE DEPARTMENT :
- To produce competent and responsible mechanical engineering graduates and post graduates by imparting quality and value based education
- To prepare students for professional career and guide them for entrepreneurship and higher studies including research
- To motivate the young minds towards services beneficial to the society through their academic and professional activities
PROGRAMMES OFFERED:
S.No |
Name of the Programme |
Start of year |
Current intake |
1 |
B.Tech. in Mechanical Engineering |
1996 |
120 |
2 |
B.Tech. in Mechanical Engineering (Robotics) |
2020 |
60 |
3 |
M.Tech. in CAD/CAM |
2004 |
18 |
Programme # 1 : B.Tech. in Mechanical Engineering
Programme Educational Objectives (PEOs) :
After 3-5 years of graduation, the graduate shall be able to
PEO |
Programme Educational Objectives (PEOs) |
1 |
Pursue successful careers or higher studies in mechanical engineering through their strong foundation in mathematics, science and engineering. |
2 |
Analyze and design appropriate solutions for socially relevant problems by using current engineering techniques and tools. |
3 |
Engage in professional development through effective communication, team work and lifelong learning. |
Program Outcomes (POs):
The graduate of mechanical engineering will be able to
PO |
Program Outcomes (POs) |
1 |
Apply the knowledge of mathematics, science, engineering fundamentals to solve complex mechanical engineering problems. |
2 |
Attain the capability to identify, formulate and analyse problems related to mechanical engineering. |
3 |
Design solutions for mechanical system components and processes that meet the specified needs with appropriate consideration for public health and safety. |
4 |
Perform analysis, conduct experiments and interpret data by using research methods such as design of experiments to synthesize the information and to provide valid conclusions. |
5 |
Select and apply appropriate techniques from the available resources and current mechanical engineering and software tools. |
6 |
Carry out their professional practice in mechanical engineering by appropriately considering and weighing the issues related to society. |
7 |
Understand the impact of the professional engineering solutions on environmental safety and legal issues. |
8 |
Transform into responsible citizens by resorting to professional ethics and norms of the engineering practice. |
9 |
Function effectively in individual capacity as well as a member in diverse teams and in multidisciplinary streams. |
10 |
Communicate fluently with the engineering community and society, and will be able to prepare reports and make presentations effectively. |
11 |
Apply knowledge of the engineering and management principles to managing projects and finance in multidisciplinary environments. |
12 |
Engage themselves in independent and life-long learning to continuing professional practice in their specialized areas of mechanical engineering. |
Program Specific Outcomes(PSOs):
The students must attain the knowledge and skills to
PSO |
Program Specific Outcomes(PSOs) |
1 |
Design, analyse and optimize mechanical systems along with control mechanisms |
2 |
Manufacture mechanical components by selecting effective processing methods and efficient tools |
3 |
Design, analyse evaluate thermal systems |
Programme # 2 : B.Tech. in Mechanical Engineering(Robotics)
Programme Educational Objectives (PEOs) :
After 3-5 years of graduation, the graduate shall be able to
PEO |
Programme Educational Objectives (PEOs) |
1 |
Pursue successful careers or higher studies in mechanical engineering with robotics / automation as specialization through their strong foundation in mathematics, science and engineering. |
2 |
Analyze and design appropriate solutions for socially and industry relevant problems by using current engineering techniques and tools. |
3 |
Engage in professional development through effective communication, teamwork and lifelong learning. |
Program Outcomes (POs):
By the end of program, the graduate of Mechanical Engineering (Robotics) will be able to
PO |
Program Outcomes (POs) |
1 |
Apply the knowledge of mathematics, science, engineering fundamentals to solve complex mechanical engineering problems including robotics applications. |
2 |
Attain the capability to identify, formulate and analyze problems related to mechanical and robotics engineering. |
3 |
Design solutions for mechanical and robotics system components and processes that meet the specified needs with appropriate consideration for public health and safety. |
4 |
Perform analysis, conduct experiments and interpret data by using research methods such as design of experiments to synthesize the information and to provide valid conclusion. |
5 |
Select and apply appropriate techniques and modern engineering software tools including prediction and modeling to complex mechanical and robotics systems. |
6 |
Carry out their professional practice in mechanical engineering in particular robotics area by appropriately considering the issues related to society. |
7 |
Understand the impact of the professional engineering solutions on environmental safety and legal issues. |
8 |
Transform into responsible citizens by resorting to professional ethics and norms of the engineering practice. |
9 |
Function effectively in individual capacity as well as a member in diverse teams and in multidisciplinary streams. |
10 |
Communicate fluently with the engineering community and society; prepare reports; and make presentations effectively. |
11 |
Apply knowledge of the engineering and management principles to deal with projects and their finance in multidisciplinary environments. |
12 |
Engage themselves in independent and life-long learning for continuing professional practice in their specialized areas of mechanical and robotics engineering. |
Program Specific Outcomes(PSOs):
The students must attain the knowledge and skills to
PSO |
Program Specific Outcomes(PSOs) |
1 |
Design, analyze and develop mechanical and robotic systems that are cost effective and environment friendly using advanced tools and techniques. |
2 |
Model, program and control safe and productive automation systems using various software tools and algorithms. |
3 |
Apply domain knowledge of mechanical and robotics to provide solutions in interdisciplinary areas to meet current industrial and societal challenges. |
Programme # 3 : M.Tech in CAD/CAM
Programme Educational Objectives (PEOs) :
After 3-5 years of graduation, the graduate shall be able to
PEO |
Programme Educational Objectives (PEOs) |
1 |
Become successful engineers with strong technical and computer background in design and manufacturing of mechanical components and systems. |
2 |
Play effective role as innovators and collaborators participating I research and entrepreneurship to evolve solutions for societal and environmental issues. |
3 |
Engage in professional development through lifelong learning and following ethical practices. |
Program Outcomes (POs):
The graduate of mechanical engineering will be able to
PO |
Program Outcomes (POs) |
1 |
Acquire fundamentals in the areas of computer aided design and manufacturing. |
2 |
Apply innovative skills and analyze computer aided design and manufacturing problem critically. |
3 |
Identify, formulate and solve design and manufacturing problems. |
4 |
Carry out research related to design and manufacturing. |
5 |
Use existing and recent CAD/CAM software. |
6 |
Collaborate with educational institutions, industry and R&D organizations in multidisciplinary teams. |
7 |
Apply project and finance management principles in engineering projects. |
8 |
Prepare technical reports and communicate effectively. |
9 |
Engage in independent and life-long learning and pursue professional practice in their specialized areas of CAD/CAM. |
10 |
Exhibit accountability to society while adhering to ethical practices. |
11 |
Act independently and take corrective measures where necessary. |
Program Specific Outcomes(PSOs):
At the end of the programme the student shall be able to
PSO |
Program Specific Outcomes(PSOs) |
1 |
Develop and implement novel ideas on product design, analysis, optimization and evaluation in conjunction with modern CAD tools |
2 |
Apply engineering knowhow to solve manufacturing problems involving the latest CAM tools and technologies |
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