Program Educational Objectives (PEO)

⦁ PEO1 : Join a technically sophisticated workforce as responsible members with core values and basic awareness in the wide range of mechanical engineering and related fields
⦁ PEO2 : Apply their engineering knowledge, critical thinking and problem solving skills in professional engineering practice, diverse or in non-engineering fields for successful career
⦁ PEO3 : Continue intellectual development through research and higher education in engineering, business, or other professional fields.
⦁ PEO4 : Be accountable citizens by accepting professional and societal responsibilities and undertaking dynamic roles locally, nationally, and/or internationally

Programme Outcomes (PO)

• PO1: An ability to independently carry out research/investigation and development work in engineering and allied streams
• PO2: An ability to communicate effectively, write and present technical reports on complex engineering activities by interacting with the engineering fraternity and with society at large.
• PO3: An ability 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
• PO4: An ability to apply stream knowledge to design or develop solutions for real world problems by following the standards
• PO5: An ability to identify, select and apply appropriate techniques, resources and state-of-the-art tool to model, analyse and solve practical engineering problems.
• PO6: An ability to engage in life-long learning for the design and development related to the stream related problems taking into consideration sustainability, societal, ethical and environmental aspects
• PO7: An ability to develop cognitive load management skills related to project management and finance which focus on Entrepreneurship and Industry relevance.

Programme Specific Outcomes (PSO)

The graduates of Mechanical Engineering will be able to:

⦁ PSO1 :  Apply fundamental principles to thermal, fluid, production and mechanical systems in a logical and discerning manner
⦁ PSO2 : Model, analyze, design and realize thermal, fluid, mechanical, production and control systems to meet specifications.
⦁ PSO3 : Identify, formulate and redesign to optimize existing mechanical systems by realizing state of the art economic, social and environmental conditions.

• 221TME100 – COMPUTATIONAL METHODS FOR ENGINEERS
• 221TME007 – ROBOTICS AND AUTOMATION
• 221TME008 – CAD /CAM
• 221EME036 – COMPOSITE MATERIALS
• 221EME042 – PRODUCTION AND OPERATIONS MANAGEMENT
• 221RGE100 – RESEARCH METHODOLOGY AND IPR
• 221LME003 – ADVANCED MANUFACTURING LAB 1

• 222TME100 – DESIGN OF EXPERIMENTS
• 222TME004 – MODERN MANUFACTURING SYSTEMS
• 222EME035 – CELLULAR MANUFACTURING AND GROUP TECHNOLOGY
• 222EME043 – OPTIMIZATION TECHNIQUES
• 22ECE096 – NATURAL HAZARDS AND IMPACT MANAGEMENT

• 223AGE010 – REUSE AND RECYCLE TECHNOLOGY
• 224PME100 – DISSERTATION PHASE II

• 224PME100 – DISSERTATION PHASE II

221TME100 COMPUTATIONAL METHODS FOR ENGINEERS

• CO1 – Solve system of equations using numerical techniques
• CO2 – Apply numerical schemes to integrate, differentiate and curve fit
• CO3 – Determine solutions of ODE and PDE using computational methods
• CO4 – Formulate a Mechanical Engineering problem and solve that using computer based numerical procedure and submit micro-project
• CO5 – Apply two different numerical methods to solve (manual/computer) a problem and compare the merits and demerits of those schemes

221TME007 ROBOTICS AND AUTOMATION

• CO1 – Understand the basics about an industrial robot and to perform basic transformations of robot frames
• CO2 – Perform forward and inverse kinematics of industrial robots
• CO3 – Perform velocity and force analysis of industrial robots
• CO4 – Control the trajectory of industrial robots and to program the robot
• CO5 – Understand the industrial applications of robots

221TME008 CAD/CAM

• CO1 Understand the basic concepts of CAD
• CO2 Impact general Awareness on components of geometric modelling.
• CO3 Identify the basic concepts of solid modelling and its applications
• CO4 Solve problems raised in engineering using CAD
• CO5 Apply knowledge in Assembling solid models in manufacturing Process

221EME036 COMPOSITE MATERIALS

• CO1 – Summarize the significance of advanced materials
• CO2 – Compare the set of technological properties of the advanced materials with the conventional materials.
• CO3 – Distinguish the construction, constituent’s phases & characteristics of the composite materials.
• CO4 – Extract the fabrication techniques of different types of composite materials
• CO5 – Select and apply the appropriate polymer matrix composites
• material for recent industrial applications.

221EME042 PRODUCTION AND OPERATIONS MANAGEMENT

• CO1 – Develop manufacturing planning and control system and an appropriate forecasting strategy for atypical manufacturing industry.
• CO2 –  Design an appropriate SOP and MPS for an organization
• CO3 –  Develop an appropriate MRP and ERP strategies for an organization
• CO4 – Solve the company wide problems in plant layout, line balancing and quality.
• CO5 – Design an ideal strategy to establish quality on a companywide basis.

221RGE100 RESEARCH METHODOLOGY AND IPR

• CO1 – Approach research projects with enthusiasm and creativity.
• CO2 – Conduct literature survey and define research problem.
• CO3 – Adopt suitable methodologies for solution of the problem.
• CO4 – Deliver well-structured technical presentations and write technical reports.
• CO5 – Publish/Patent research outcome.

221LME003 ADVANCED MANUFACTURING LAB 1

• CO1 – To gather knowledge on 2D drawing using any software package
• CO2 – To gather knowledge on 3D modelling using any software package
• CO3 – To impart gather knowledge on static Finite Element analysis
• CO4 – To impart gather knowledge on dynamic Finite Element analysis
• CO5 – To gather knowledge on assembling of various parts, fits tolerance, surface quality and measurements
• CO6 – To gather knowledge onsynthesis of mechanism design for manufacturing systems and robotics

222TME100 – DESIGN OF EXPERIMENTS

• CO1 – Perform statistical analysis of data.
• CO2 – Conduct statistical hypothesis tests on mean and variance of populations.
• CO3 – Design and analyse single factor experiments.
• CO4 – Design and analyse full and fractional factorial experiments.
• CO5 – Apply Response Surface Methodology to optimise the response in an experiment.
• CO6 – Carry out an experimental project and analyse the results using a statistical software.

222TME004 MODERN MANUFACTURING SYSTEMS

• CO1 – Analyse the fundamental machining principles
• CO2 – Demonstrate the mechanisms in the non-traditional machining processes
• CO3 – Understand various advanced metal cutting and forming operations
• CO4 – Understand experimental methods using various computational methods
• CO5 – Demonstrate the concept of Explosive forming Process

222EME035 CELLULAR MANUFACTURING AND GROUP TECHNOLOGY

• CO1 – Develop an understanding about Group Technology and part classification and coding
• CO2 – Understand the algorithms and methods for part grouping
• CO3 – Understand the concepts of cellular manufacturing
• CO4 – Understand about the design methods of Cellular manufacturing systems
• CO5 – Understand about quantitative analysis of cellular manufacturing

222EME043 OPTIMIZATION TECHNIQUES

• CO1 – Understand the theory of simplex method
• CO2 – Understand the concepts of non-linear programming in manufacturing process
• CO3 – Identify algorithms for unconstrained optimization.
• CO4 – Understand the basic concepts of multi-objective decision making and sequential decision making.
• CO5 – Solve a multi-variable single objective optimization problem using Metaheuristics.

22ECE096 NATURAL HAZARDS AND IMPACT MANAGEMENT

• CO1 – Explain the evolving concepts and thoughts on the management of hazards and disasters
• CO2 – Analyze the causes behind natural disasters and evaluate their magnitude and impacts
• CO3 – Apply RS and GIS concepts for hazard mapping and mitigation measures
• CO4 – Evaluate the Disaster Management Framework in the Indian and International context

222LME003 ADVANCED MANUFACTURING LAB II

• CO1 – To gather knowledge on CNC part programming
• CO2 – To gather knowledge on CNC machine tool operations
• CO3 – To impart knowledge on surface quality of machined parts
• CO4 – To impart gather knowledge on measurement of tool wear and machine vision-based inspection
• CO5 – To gather knowledge on software and hardware aspects of additive manufacturing
• CO6 – To gather knowledge on programming of industrial robots.

223AGE010 – REUSE AND RECYCLE TECHNOLOGY

• CO1 – Explain the principles and technologies behind waste reduction, resource conservation, and sustainable practices
• CO2 – Describe and Analyze waste generation and management
• CO3 – Apply the knowledge of various reuse strategies and their application in different industries and analyze various recycling technologies
• CO4 – Appraise the methods of E-waste management and Eco-friendly packaging
• CO5 – Comprehend Environmental Regulations and Policies, Understand the importance of environmental regulations and policies in addressing environmental challenges

224PME100 – DISSERTATION PHASE II

• CO1 – To strengthen the understanding of fundamentals through application of theoretical concepts.
• CO2 – To boost their skills in preparing report and widen the horizon of their thinking
• CO3 – To resolve a problem by applying theoretical knowledge and thus to increase problem solving skills

224PME100 – DISSERTATION PHASE II

• CO1 – To strengthen the understanding of fundamentals through application of theoretical concepts.
• CO2 – To boost their skills in preparing report and widen the horizon of their thinking
• CO3 – To resolve a problem by applying theoretical knowledge and thus to increase problem solving skills