Program Educational Objectives (PEOs)
- To prepare students for successful career by providing industrial exposure and career counselling.
- To develop the ability among students to synthesis data and technical concepts in the areas of manufacturing processes, operation management, process layout and product design.
- To provide opportunities for students to work as part of teams on multidisciplinary projects.
- To impart fundamental concepts, principles and aspects of engineering pertaining to develop interdisciplinary skills.
- To promote student’s awareness towards lifelong learning, human values, professional ethics and environmental issues.
Program Specific Outcomes (PSOs)
At the end of graduation program, learner will be able:
- To apply the principles of production technology to solve problems in the major streams of manufacturing, industrial engineering and operation management.
- To analyze the processes related to end product development and come up with solution for its automation to achieve productivity and quality enhancement.
- To provide cost effective design solutions for various tools and dies in accordance with the manufacturing standards.
Program Outcomes (POS)
Engineering graduates will be able to:
- Engineering knowledge: Apply the knowledge of mathematics, science, engineering fundamentals and an engineering specialization to the solution of complex engineering problems.
- Problem analysis: Identify, formulate, review research literature and analyze complex engineering problems reaching substantiated conclusions, using first principles of mathematics, natural sciences, and engineering sciences.
- Design/development of solutions: Design solutions for complex engineering problems and design system components or processes that meet the specified needs with appropriate consideration for the public health and safety and the cultural, societal and environmental considerations.
- Conduct investigations of complex problems: Use research-based knowledge and research methods including design of experiments, analysis and interpretation of data and synthesis of the information to provide valid conclusions.
- Modern tool usage: Create, select, and apply appropriate techniques, resources, and modern engineering and IT tools including prediction and modelling to complex engineering activities with an understanding of the limitations.
- The engineer and society: Apply reasoning informed by the contextual knowledge to assess societal, health, safety, legal and cultural issues and the consequent responsibilities relevant to the professional engineering practice.
- Environment and sustainability: Understand the impact of the professional engineering solutions in societal and environmental contexts, and demonstrate the knowledge of and need for sustainable development.
- Ethics: Apply ethical principles and commit to professional ethics and responsibilities and norms of the engineering practice.
- Individual and team work: Function effectively as an individual and as a member or leader in diverse teams, and in multidisciplinary settings.
- Communication: Communicate effectively on complex engineering activities with the engineering community and with society at large such as, being able to comprehend and write effective reports and design documentation, make effective presentations and give and receive clear instructions.
- Project management and finance: Demonstrate knowledge and understanding of the engineering and management principles and apply these to one’s own work, as a member and leader in a team, to manage projects and in multidisciplinary environments.
- Life-long learning: Recognize the need for, and have the preparation and ability to engage in independent and life-long learning in the broadest context of technological change.
S.E. Sem-III, 2018-19 ( Odd Sem)
Course Outcomes
Course Code | Course Name | Course outcomes |
MEC301 | Applied Mathematics III |
1. Demonstrate the ability of using Laplace Transform in solving the Ordinary Differential Equations and Partial Differential Equations 2. Demonstrate the ability of using Fourier Series in solving the Ordinary Differential Equations and Partial Differential Equations 3. Solve initial and boundary value problems involving ordinary differential equations 4. Identify the analytic function, harmonic function, orthogonal trajectories 5. Apply bilinear transformations and conformal mappings 6. Identify the applicability of theorems and evaluate the contour integrals. |
PEC302 | Applied Thermodynamics |
1. Illustrate the basic concepts related to a thermodynamic system, surrounding, thermodynamic properties and processes. 2. Apply first law of thermodynamics to solve different types of problems on open and closed systems. 3. State the Second Law of Thermodynamics with its practical significance. 4. Demonstrate the importance of entropy and clausius inequality with its application to solve problems. 5. Apply properties of steam to solve problems using steam table and Mollier chart. 6. Analyze various thermodynamic cycles generating powers to solve problems. |
PEC303 | Manufacturing Engineering – I |
1. Describe types of machine tools, their classification, specifications and constructional features. 2. Illustrate machine tools capabilities, limitations of machining operations to generate cylindrical, circular and planar components. 3. Demonstrate different kinds of cutting tools with their significance of work-piece interface. 4. Describe features and applications of screw thread processes. 5. Describe features and applications of gear manufacturing processes. 6. Demonstrate finishing processes like grinding, reaming, honing, lapping and burnishing. |
PEC304 | Materials Science and Engineering |
1. Demonstrate the process of solidification of metals along with various types of crystal imperfections. 2. Distinguish between various modes of material failure. 3. Analyze various alloy phase diagrams including iron – iron carbide diagram. 4. Select proper heat treatment process for steel in order to attain desirable properties. 5. Describe the properties with applications of alloy steels/ non – ferrous metals. 6. Describe the properties with applications of composites/ nano structured materials. |
PEC305 | Mechanics of Solids |
1. Illustrate stress-strain behavior of various materials under load. 2. Demonstrate the basic concepts related to material properties and stress strain behavior of material. 3. Illustrate the basic concept of Bending moment and Shear force. 4. Develop skills to analyze the stresses and deformation due to axial loading. 5. Illustrate basic concepts of bending, torsion, buckling, deflection and strain energy. 6. Develop skills to visualize with analysis of stresses under various loading conditions. |
S.E. Sem-IV, 2018-19 ( Even Sem)
Course Outcomes
Subject Code | Course Name | Course outcomes |
MEC401 | Applied Mathematics IV** | 1 Solve the system of linear equations using matrix algebra with its specific rules
2 Demonstrate basics of vector calculus 3 Apply the concept of probability distribution and sampling theory to engineering problems 4 Apply principles of vector calculus to the analysis of engineering problems 5 Identify, formulate and solve engineering problems 6 Illustrate basic theory of correlations and regression |
PEC402 | Dynamics of Machines | 1. Understand the common mechanisms used in machines, correlate the concepts of kinematics with kinetics of rigid body dynamics.
2. Design of four bar mechanisms, gyroscopic devices etc. 3. Determine the velocity and acceleration of various links in motion. 4. Illustrate different types of cams, followers with their different motions for their application. 5. Develop profiles of cams for engineering applications. 6. Illustrate various types of gears/ their terminology areas of application along with parameters pertaining to spur gears and gear trains. 7. Develop basic concepts pertaining to balancing/vibrations in evaluation of simple machine components. 8. Illustrate different types of clutches, brakes and dynamometers for evaluation of braking force. |
PEC403 | Manufacturing Engineering – II | 1. Illustrate the fundamentals of various non-conventional machining processes, capabilities with their application areas.
2. Demonstrate the knowledge pertaining to sheet metal fabrication/different types of joints with their trouble shooting. 3. Illustrate the concepts of various metal casting processes. 4. Demonstrate the basic knowledge of powder metallurgy Process. 5. Demonstrate the basic knowledge of plastic/ceramic molding processes. 6. Demonstrate the basic knowledge of fabrication of reinforced polymer/Polymeric composites with their applications. |
PEC404 | Fluid and Thermal Engineering | 1. Illustrate the different properties of fluids along with the solution of related problems.
2. Solve problems on Bernoulli’s equation with its application. 3. Determine energy losses due to friction and pipe fittings. 4. Apply thermodynamic and fluid mechanics principles to evaluate the performance of compressors. 5. Apply thermodynamic and fluid mechanics principles to evaluate the performance of gas turbines. 6. Apply heat transfer principles to solve problems related to composite wall and heat exchangers. |
PEC405 | Electrical and Electronics Engineering | 1. Illustrate the principles of operation with their main features of electric machines.
2. Develop the concepts of Electronics used in the application of controlling electrical machines. 3. Demonstrate the knowledge of Electrical and electronics engineering in processing industries. 4. Illustrate the application requirements for various types of motors 5. Demonstrate the details/applications of Transformers along with different power generation concepts. 6. Illustrate the fundamentals of Power electronics applications. |
T.E. Sem-V, 2018-19 ( Odd Sem)
Course Outcomes
Subject Code | Course Name | Course outcomes |
PEC501 | Design of Mould & Metal Forming Tools | 1. Demonstrate the concepts of metal casting and metal forming processes.
2. Identify the equipment, machinery and tooling used for sand casting/die casting. 3. Identify equipment, machinery and tooling used for forming processes (such as forging, rolling and extrusion). 4. Illustrate the basic theory pertaining to plastic deformation of metal. 5. Develop skills in designing tools, the set up for the processing techniques pertaining to various metal casting and metal forming operations. 6. Analyze various defects, their probable causes and remedial measures confronted with metal casting and forming processes. |
PEC502 | Operations Research | 1. Utilize the resources in various industries optimally.
2. Apply the concept of linear programming for solving specialized problems on transportation, assignments & sequencing. 3. Apply principles of queuing, replacement & game theory models to solve real life problems. 4. Demonstrate the concept of dynamic programming in modelling and solving problems. 5. Illustrate different types of simulation models applicable to Inventory/queuing. 6. Acquire skills in identifying & applying cost effective strategies in managing of manufacturing projects. |
PEC503 | Machine Design – I | 1. Apply basic principles of machine design.
2. Design joints such as knuckle joint/turn buckle. 3. Design machine elements such keys, shafts, couplings/springs. 4. Design pressure vessels. 5. Design weld joint. 6. Design rivet/bolt joints |
PEC504 | CAD/CAM/CIM | 1. Use computer graphics in design.
2. Identify proper modeling techniques for geometric modeling. 3. Develop expertise in computer-aided manufacturing. 4. Illustrate basic concepts of control systems. 5. Write the appropriate code for performing particular tasks in a CNC. 6. Solve real life engineering problems using FEA. |
PEC505 | METROLOGY AND QUALITY ENGINEERING | 1. Handle & operate precision measuring instruments / equipment’s.
2. Design Go and No Go gauges for a given assembly. 3. Analyze simple machined components for dimensional stability & functionality. 4. Identify and use proper quality tools in various manufacturing /service problems. 5. Integrate quality approaches for productivity improvement. 6. Comprehend and apply Quality standards in different situations. |
PEDLO5012 | Finite Element Analysis | 1. Solve ordinary and partial differential equations using the Galerkin method.
2. Develop the finite element equations to model engineering problems governed by 2nd order partial differential equations. 3. Apply the basic finite element formulation techniques to solve engineering problems. 4. Use commercial FEA software, to solve problems related to engineering. 5. Prepare Solutions of 2 -D Problems using FE Software. 6. Find solution techniques to Dynamic problems, longitudinal vibration, frequencies and mode shapes. |
T.E. Sem-VI, 2018-19 ( Even Sem)
Course Outcomes
Subject Code | Course Name | Course outcomes |
PEC601 | Machining Science and Technology | 1. Calculate the values of various forces involved in the machining operations.
2. Analyse the effect of temperature and cutting fluids in metal cutting. 3. Analyse the surface integrity after post machining. 4. Design various single/multipoint cutting tools. 5. Select an appropriate tool material for particular machining application. 6. Demonstrate the interrelationship between cutting parameters and machining performance measures. |
PEC602 | Process Engineering and Tooling | 1. Determine machine sequences to cater to the manufacturing requirements.
2. Analyse part prints. 3. Prepare tolerance control charts with its balancing. 4. Design work holding devices for consistent positioning of work piece in relation to the tool. 5. Prepare process picture, process routing/process sheets. 6. Design cams for part production on single spindle automats. |
PEC603 | Production Tooling | 1. Select location and clamping faces/points on jobs.
2. Design and develop simple productive and cost effective jigs. 3. Design and develop simple productive and cost effective fixtures. 4. Identify press tool requirements to build concepts pertaining to design of press tools. 5. Prepare working drawings and setup for economic production of sheet metal components. 6. Demonstrate the principles of blank development in bent & drawn components. |
PEC604 | Machine Design – II | 1. Design machine tool structures, drive elements/drives.
2. Design feed gear boxes. 3. Design power screws and clutches. 4. Design bearings. 5. Demonstrate the requirements like maintaining of expected accuracy levels, parametric optimization, managing wear and tear problems. 6. Illustrate the safety aspects/ acceptance tests in machining tools. |
PEC605 | Production and Operations Management | 1. Analyze implications of Production and Operations Management in industries.
2. Demonstrate the role of Production Management in creating competitive advantage for business organizations. 3. Analyze various constituents of production operations in manufacturing and service. 4. Plan and control various production related activities. 5. Illustrate various inventory management procedures with the tools employed there in. 6. Demonstrate role of JIT, MRP, and ERP with their contribution towards production and operations management. |
PEDLO6011 | Manufacturing Planning and Control | 1. Analyze all aspects of a successful manufacturing planning and control infrastructure.
2. Design demand management scheme. 3. Illustrate the significance of sales and operations planning. 4. Design and oversee an effective master production schedule. 5. Design materials requirements planning. 6. Analyze capacity planning and management. |
B.E. Sem-VIII, 2018-19 ( Even Sem)
Course Outcomes
Subject Code | Course Name | Course outcomes |
PEC801 | Automation and Control Engineering | 1. Apply automation techniques to manufacturing set-ups.
2. Design and develop pneumatic and hydraulic control circuits of medium complexity. 3. Illustrate the use of PLC in control systems. 4. Model the system and check the stability of a mechanical system. |
PEC802 | Computer Aided Manufacturing | 1. Develop expertise in computer-aided manufacturing.
2. Illustrate basic concepts of control systems. 3. Write /Select the appropriate code for performing particular tasks in a CNC. |
PEC803 | Engineering Economics, Finance, Accounting and Costing | 1. Correlate various micro and macro economic variables.
2. Illustrate Economic policies and understand their implications. 3. Get familiarized with the roles played by various financial institutions/banks. 4. Get exposure to various business strategies. 5. Get familiarized with accounting and costing practices. |
PEC804 | Total Quality Strategy | 1. Identify and use proper quality tools in various manufacturing /service functions.
2. Integrate quality approaches for productivity improvement. 3. Realize the trade-off dimension of quality and cost. 4. Realize that quality should not be inspected, but should be inbuilt into the system. |
PEC805 | Industrial Relations and Human Resource Management | 1. Appreciate human resource as the most vital resource of an organization.
2. Develop skills in identifying, planning, and deploying of man power. 3. Develop inter personal and communication skills. 4. Develop skills in identifying training needs of employs at different levels. |
PEE8011 | Sales and Marketing Management | 1. Illustrate various selling strategies, pricing strategies and methodology of product positioning.
2. Get exposure about customer behavior and their implications in marketing. 3. Develop capability to assess, analyze and measure sales and marketing performance. 4. Get exposure to promotional policies and importance of advertising. 5. Evaluate effectiveness of advertising. |