In the recent times, Mechanical Engineering have seen an unprecedented growth, conventional practices are overtaken by CAD/CAM/CIM/ CAE/FEA/CFD/Nano-Technology/ Micromachining etc. All these technologies caters to the needs of today’s rapid changing Industrial scenario Mechanical Engineering forms the base of all engineering branches, its horizon of has no limits. Our Institute is providing excellent infrastructure and facilities of UG, PG and Research activities. Our Labs are upgraded with HAAS CNC’s and JANATICS Pneumatics equipment’s.
Department of Mechanical Engineering is always working hard in imparting quality education to the students through Industry-Institute Interactions and Inviting Eminent Personalities for expert lectures from India and Abroad. Department has signed MOU with IGTR where students are exposed to latest technologies and hands on experience in doing their Projects. The Department has a recognized Research Center of Swami Ramanand Teerth Marathwada University, Nanded.
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Department Location |
West Wing, Ground & First Floor |
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Year of Establishment |
1987-88 |
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Head of Department |
Dr. M.G. Harkare |
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Contact No |
+91 9881747185 |
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E –mail ID |
harkare_mg@mgmcen.ac.in |
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Total No of Classrooms |
03 |
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Total no of Laboratories |
10 |
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Number of Professors |
05 |
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Number of Associate Professors |
00 |
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Number of Assistant Professors |
12 |
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Number of Senior Lecturers |
- |
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Number of Lecturers |
- |
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Total Teaching Faculty |
17 |
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Supporting Teaching Staff |
Department : 02 |
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Work Shop : 04 |
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Lab. Attendant : 03 |
Vision of the Institution
To be one of the leading Departments for Mechanical Engineering education to develop proficient engineers with global acceptance in the service of mankind.
Mission of the Institution
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Providing quality education in Mechanical Engineering with cutting edge technologies like Computer Numerical Control, Coordinate Measuring Machine, Additive manufacturing with multidisciplinary as well as green manufacturing approach on sustainable basis.
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Developing competent engineers to solve real life problems related to Mechanical Engineering and facilitate continuous learning based on the changing needs of the Industry.
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Cultivating leadership qualities, employability skills, with ethical values, through learner-centric approach among Mechanical Engineering graduates.
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Nurturing communication with research and development organizations, Industries and alumni leading to excellence in teaching-learning covering Automation technologies, Advanced manufacturing and allied Mechanical research to enhance creativity.
Program Educational Objectives (PEOS)
Graduates of Mechanical Engineering employed should be able to ....
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PEO1: Implement technological expertise to design, formulate and address complex Mechanical Engineering problems providing Green manufacturing solutions on sustainable basis.
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PEO2: Apply their knowledge, professional competence and skills acquired in Higher education and Research emphasizing automation based technologies to meet the current trends in manufacturing, design and power sector.
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PEO3.Practice work ethics, teamwork and multi disciplinary approach for professional development in Mechanical Engineering through lifelong learning.
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PEO4: Demonstrate competencies to pursue the research and development activities in allied Mechanical Engineering fields to meet the demands of changing Industry needs.
Program Specific Outcomes (PSO)
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PSO 1: Ability to develop and implement new ideas on product design and development using Modern Tools, with focus on energy efficiency and environmental issues.
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PSO 2: Capability to work in industries on advanced Pneumatics, Computer Numerical Control, Coordinate Measuring Machines, Automation based technologies and Robotics to meet the changing needs of the Industry.
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PSO 3: Agility to get updated with Additive Manufacturing, Mechatronics, advanced tools in Industry / Research settings and propose innovative solutions to real life problems.
Program Outcomes (POS)
Graduate Engineers should be having the following abilities
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PO1. Engineering Knowledge: Apply the knowledge of science and engineering to solve complex engineering problems.
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PO 2. Problem analysis: Analyze complex engineering problems and synthesize solutions for it.
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PO3. Design/Development of Solutions: Design solutions for complex engineering problems and design system components or processes taking care of public health, safety, cultural, societal and environmental needs.
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PO4. Conduct Investigations of Complex Problems: Ability to apply research based knowledge and methods for analysis and interpretation of data, and synthesis of information.
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PO5. Modern Tool Usage: Create, select, and apply techniques, resources, modern engineering and IT tools for the design, modeling, simulation and analysis.
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PO6. The Engineer and Society: Apply reasoning and knowledge to assess societal, health, safety, legal and cultural issues relevant to the professional engineering practice.
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PO7. Environment and Sustainability: Understand the impact of the engineering solutions on society & environment, and work for sustainable development.
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PO8. Ethics: Ability to apply professional ethics and norms of the engineering practice.
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PO9. Individual and Team Work: Function effectively as an individual, and as a member or leader in diverse multidisciplinary teams.
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PO10. Communication: Ability to communicate effectively with both engineers and society.
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PO11. Project Management and Finance: Ability to apply engineering and management principles to manage the multidisciplinary projects.
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PO12. Life-long Learning: Ability to engage in independent and life-long learning.