Department Information
DEPARTMENT OF MECHANICAL ENGINEERING
| UG Degree course offered | B. E. (Mechanical) | ||||
| UG Course Duration | 4 years | ||||
| UG Year of Establishment | 1984 | ||||
| UG Intake | 120 | ||||
| Approved by | AICTE, New Delhi | ||||
| NBA Accredited |
Accredited twice in 2003 and 2008 and Not applied for accreditation by NBA further
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| PG Degree course offered | M.E. Mechanical (Design Engineering) |
| PG Course Duration | 2 years |
| PG Year of Establishment | Design Engineering: 2005 |
| PG Intake | 18 |
| Approved by | AICTE, New Delhi |
| Affiliated to | Savitribai Phule Pune University |
Mechanical Engineering Department is established since the inception of the college in 1984. Department consists of highly dedicated, motivated, qualified and competent faculty. The department possesses state of the art laboratories catering to the needs of the students and research scholars. Laboratories are modernized from time to time through the funds received under various Research Proposals and MODROB schemes of A.I.C.T.E and University of Pune. Till date, Department has received various grants worth Rupees sixty five lakhs. Considerable attention is being given in the Planning, setting up and up gradation of laboratories to make them of global standards and to provide excellent ambience and facilities to the students.
The Department supports Innovative Methodology for Development of teaching skills for newly recruited teachers for practicing an efficient and effective Teaching Learning Process through our Learning Resource Centre. Since our college is located in the Industrial Belt of Major Machine tools and Automobile industries, Industry-Institute interaction is well established. The Department has established excellent rapport with its alumni and contributed towards formation of strong alumni association.
We are proud to state that our Department is running Center of Excellence which conducts number of value added courses such as Ansys, Catia, Hypermesh, 3DPLM, Autodesk, MatLab, Abaqus, Six Sigma, SEED INFOTECH and Japanese Language for the knowledge and skills up gradation of the students to cater the need of current industrial scenario.
Vision, Mission
VISION & MISSION
Vision
Strengthening Society with Skilled Engineers.
Mission
To impart knowledge of all mechanical engineering subjects, through effective, modern teaching- learning process. Students will be able to apply this knowledge to solve the problems of society in the field of energy, healthcare, environment and safety. Students will be empowered for higher education, employment and entrepreneurship with professional ethics.
GOALS
- To have dedicated Student cells through which students driven self activities are executed.
- To be recognized as one the leading institutions with several innovations in Mechanical workshop
- To provide Incubation for sustainable innovations and guide them through developing business facilities.
- To have a balanced Research Department maintaining equilibrium between innovations and incubation.
CO
Course Outcomes for the subjects of AY: 2021-22
SE SEM II
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Course code : 207002 Subject: Engineering Mathematics – III |
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CO No. |
Course Outcome |
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207002.1 |
SOLVE higher order linear differential equations and its applications to model and analyze mass spring systems. |
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207002.2 |
APPLY Integral transform techniques such as Laplace transform and Fourier transform to solve differential equations involved in vibration theory, heat transfer and related mechanical engineering applications. |
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207002.3 |
APPLY Statistical methods like correlation, regression in analyzing and interpreting experimental data applicable to reliability engineering and probability theory in testing and quality control. |
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207002.4 |
PERFORM Vector differentiation & integration, analyze the vector fields and APPLY to fluid flow problems |
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207002.5 |
SOLVE Partial differential equations such as wave equation, one and two dimensional heat flow equations. |
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Course code : 202050 Subject: Manufacturing Process-I |
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CO No. |
Course Outcome |
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202050.1 |
APPRAISE and SELECT appropriate moulding, core making and melting furnace for industrial product casting with minimum casting defects. |
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202050.2 |
EVALUATE and CHOOSE suitable metal forming processes for manufacturing of industrial parts with minimal forming defects. |
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202050.3 |
ASSESSING sheet metal forming operation to CREATE custom made sheet metal forming dies so as to meet the application requirements and dies does the job consistently and accurately. |
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202050.4 |
ANALYZE and SELECT appropriate welding process based on the type of industrial application with minimal welding defects. |
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202050.5 |
JUSTIFY the selection of polymer processing method among moulding and extrusion for an application which will produce fewer defects. |
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202050.6 |
DETERMINE the composite manufacturing process for a given composite type and component to meet application requirements. |
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Course code : 202047 Subject: Kinematics of Machinery |
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CO No. |
Course Outcome |
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202047.1 |
APPLY kinematic analysis to simple mechanisms. |
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202047.2 |
ANALYZE velocity and acceleration in mechanisms by analytical method |
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202047.3 |
ANALYZE velocity and acceleration in mechanisms by vector and graphical method |
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202047.4 |
SYNTHESIZE a four bar mechanism with analytical and graphical methods. |
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202047.5 |
APPLY fundamentals of gear theory as a prerequisite for gear design. |
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202047.6 |
CONSTRUCT cam profile for given follower motion. |
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Course code : 202048 Subject: Applied Thermodynamics |
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CO No. |
Course Outcome |
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202048.1 |
DETERMINE COP of refrigeration system and ANALYZE psychrometric processes. |
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202048.2 |
DISCUSS basics of engine terminology,air standard, fuel air and actual cycles. |
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202048.3 |
IDENTIFY factors affecting the combustion performance of SI and CI engines |
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202048.4 |
DETERMINE performance parameters of IC Engines and emission control. |
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202048.5 |
EXPLAIN working of various IC Engine systems and use of alternative fuels. |
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202048.6 |
CALCULATE performance of single and multi stage reciprocating compressors and DISCUSS rotary positive displacement compressors |
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Course code : 202049 Subject: Fluid Mechanics |
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CO No. |
Course Outcome |
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202049.1 |
DETERMINE and APPLY various properties of fluid and the fundamental concepts of fluid mechanics (B2) |
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202049.2 |
APPLY the laws of fluid statics and concepts of buoyancy and ANALYSE the basic equation of fluid statics to determine forces on planar and curved surfaces that are submerged in a static fluid. (B3) |
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202049.3 |
EVALUATE types of fluid flow and terms associated in fluid kinematics and apply them to determine forces and moments on surfaces of various shapes and simple machines. (B2) |
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202049.4 |
APPLY and EVALUATE principles of fluid dynamics to laminar flow .. (B2) |
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202049.5 |
ESTIMATE friction and minor losses in internal flows and DETERMINE boundary layer formation over an external surface and hence design simple pipe systems to deliver fluids under specified conditions and also the lossed during the flow of the fluid.(B4) |
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202049.6 |
CONSTRUCT mathematical correlation considering dimensionless parameters, also ABLE to predict the performance of prototype using model laws .(B2) |
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Course code : 202051 Subject: Machine Shop |
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CO No. |
Course Outcome |
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202051.1 |
PERFORM welding using TIG/ MIG/ Resistance/Gas welding technique |
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202051.2 |
MAKE Fibre-reinforced Composites by hand lay-up process or spray lay-up techniques |
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202051.3 |
PERFORM cylindrical/surface grinding operation and CALCULATE its machining time |
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202051.4 |
DETERMINE number of indexing movements required and acquire skills to PRODUCE a spur gear on a horizontal milling machine |
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202051.5 |
PREPARE industry visit report |
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202051.6 |
UNDERSTAND procedure of plastic processing |
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Course code : 202052 Subject: Project Based Learning - II |
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CO No. |
Course Outcome |
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202052.1 |
IDENTIFY the real-world problem (possibly of interdisciplinary nature) through a rigorous literature survey and formulate / set relevant aims and objectives. |
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202052.2 |
ANALYZE the results and arrive at valid conclusions. |
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202052.3 |
ROPOSE a suitable solution based on the fundamentals of mechanical engineering by possibly integration of previously acquired knowledge. |
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202052.4 |
CONTRIBUTE to society through proposed solutions by strictly following professional ethics and safety measures. |
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202052.5 |
USE of technology in proposed work and demonstrate learning in oral and written form. |
SE SEM I
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Course code : 202043 Subject: Engineering Thermodynamics |
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CO No. |
Course Outcome |
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202043.1 |
DESCRIBE the basics of thermodynamics with heat and work interactions. |
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202043.2 |
APPLY laws of thermodynamics to steady flow and non-flow processes. |
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202043.3 |
APPLY entropy, available and non available energy for an Open and Closed System. |
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202043.4 |
DETERMINE the properties of steam and their effect on performance of vapour power cycle. |
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202043.5 |
ANALYSE the fuel combustion process and products of combustion. |
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202043.6 |
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Course code : 202041 Subject: Solid Mechanics |
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CO No. |
Course Outcome |
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202041.1 |
DEFINE various types of stresses and strain developed on determinate and indeterminate members. |
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202041.2 |
DRAW Shear force and bending moment diagram for various types of transverse loading and support. |
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202041.3 |
COMPUTE the slope & deflection, bending stresses and shear stresses on a beam. |
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202041.4 |
CALCULATE torsional shear stress in shaft and buckling on the column. |
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202041.5 |
APPLY the concept of principal stresses and theories of failure to determine stresses on a 2-D element. |
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202041.6 |
UTILIZE the concepts of SFD & BMD, torsion and principal stresses to solve combined loading application based problems. |
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Course code : 202042 Subject: Solid Modeling and Drafting |
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CO No. |
Course Outcome |
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202042.1 |
UNDERSTAND basic concepts of CAD system, need and scope in Product Lifecycle Management. |
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202042.2 |
UTILIZE knowledge of curves and surfacing features and methods to create complex solid geometry. |
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202042.3 |
CONSTRUCT solid models, assemblies using various modeling techniques & PERFORM mass property analysis, including creating and using a coordinate system. |
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202042.4 |
APPLY geometric transformations to simple 2D geometries. |
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202042.5 |
USE CAD model data for various CAD based engineering applications viz. production drawings, 3D printing, FEA, CFD, MBD, CAE, CAM, etc. |
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202042.6 |
USE PMI & MBD approach for communication. |
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Course code : 202044 Subject: Engineering Materials and Metallurgy |
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CO No. |
Course Outcome |
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202044.1 |
COMPARE crystal structures and ASSESS different lattice parameters. |
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202044.2 |
CORRELATE crystal structures and imperfections in crystals with mechanical behaviour of materials. |
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202044.3 |
DIFFERENTIATE and DETERMINE mechanical properties using destructive and nondestructive testing of materials. |
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202044.4 |
IDENTIFY & ESTIMATE different parameters of the system viz., phases, variables, component, grains, grain boundary, and degree of freedom. etc. |
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202044.5 |
ANALYSE effect of alloying element & heat treatment on properties of ferrous & nonferrous alloy. |
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202044.6 |
SELECT appropriate materials for various applications. |
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Course code : 203156 Subject: Electrical and Electronics Engineering |
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CO No. |
Course Outcome |
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203156.1 |
APPLY programming concepts to UNDERSTAND role of Microprocessor and Microcontroller in embedded systems. |
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203156.2 |
DEVELOP interfacing of different types of sensors and other hardware devices with Atmega328 based Arduino Board. |
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203156.3 |
UNDERSTAND the operation of DC motor, its speed control methods and braking. |
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203156.4 |
DISTINGUISH between types of three phase induction motor and its characteristic features. |
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203156.5 |
EXPLAIN about emerging technology of Electric Vehicle (EV) and its modular subsystems |
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203156.6 |
CHOOSE energy storage devices and electrical drives for EVs. |
TE SEM II
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Course code : 302049 Subject: Artificial Intelligence &Machine Learning |
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CO No. |
Course Outcome |
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302049.1 |
DEMONSTRATE fundamentals of artificial intelligence and machine learning |
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302049.2 |
APPLY feature extraction and selection techniques. |
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302049.3 |
APPLY machine learning algorithms for classification and regression problems |
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302049.4 |
DEVISE AND DEVELOP a machine learning model using various steps. |
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302049.5 |
EXPLAIN concepts of reinforced and deep learning. |
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302049.6 |
SIMULATE machine learning model in mechanical engineering problems. |
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Course code : 302050 Subject: Computer Aided Engineering |
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CO No. |
Course Outcome |
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302050.1 |
UNDERSTAND the basic concepts of Computer Aided Engineering (CAE) and CHARACTERISTICS of various elements required for analysis. |
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302050.2 |
NURTURE students about the discretization process and criteria for quality mesh. |
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302050.3 |
UNDERSTAND the approaches of Finite Element Method (FEM) and to find displacement and stresses over the body. |
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302050.4 |
DEVELOP the knowledge and skills needed to effectively evaluate the results using Finite Element Analysis (FEA). |
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302050.5 |
APPLY computational technique to solve complex solid mechanics problems and its loading states |
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302050.6 |
STUDY the applications of CAE in the various domains of the Mechanical Engineering. |
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Course code : 302051 Subject: Design of Transmission Systems |
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CO No. |
Course Outcome |
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302051.1 |
APPLY the principle of Spur & Helical gear design for industrial application and PREPARE a manufacturing drawing with the concepts of GD&T. |
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302051.2 |
EXPLAIN and DESIGN Bevel & Worm gear considering design parameters as per design standards. |
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302051.3 |
SELECT&DESIGN Rolling and Sliding Contact Bearings from manufacturer's catalogue for a typical application considering suitable design parameters. |
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302051.4 |
DEFINE and DESIGN various types of Clutches, Brakes, used in automobile. |
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302051.5 |
APPLY various concept to DESIGN Machine Tool Gear box, for different applications |
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302051.6 |
ELABORATE various modes of operation, degree of hybridization and allied terms associated with hybrid electric vehicles. |
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Course code : 302054 Subject: Fluid Power &Control Laboratory |
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CO No. |
Course Outcome |
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302054.1 |
DEFINE working principle of components used in hydraulic and pneumatic systems. |
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302054.2 |
IDENTIFY & EXPLAIN various applications of hydraulic and pneumatic systems |
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302054.3 |
SELECT an appropriate component required for hydraulic and pneumatic systems using manufactures’ catalogues. |
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302054.4 |
SIMULATE & ANALYSE various hydraulic and pneumatic systems for industrial/mobile applications. |
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302054.5 |
DESIGN a hydraulic and pneumatic system for the industrial applications. |
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302054.6 |
DESIGN & DEMONESTRATE various IoT, PLC based controlling system using hydraulics and pneumatics. |
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Course code : 302053 Subject: Measurement Laboratory |
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CO No. |
Course Outcome |
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302053.1 |
EVALUATE causes of errors in Vernier calipers, micrometers by performing experiments in standard metrological conditions, noting deviations at actual and by plotting cause and effect diagram, to reduce uncertainty in measurement. |
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302053.2 |
ANALYZE strain measurement parameters by taking modulus of elasticity in consideration to acknowledge its usage in failure detection and force variations. |
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302053.3 |
EXAMINE surface Textures, surface finish using equipment’s like Talysurf and analyze surface finish requirements of metrological equipment’s like gauges, jaws of vernier calipers, micrometers, magnifying glasses of height gauge and more, to optimize surface finish accuracy requirements and cost of measurement. |
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302053.4 |
MEASURE the dimensional accuracy using Comparator and limit gauges and appraise their usage in actual measurement or comparison with standards set to reduce measurement lead time |
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302053.5 |
PERFORM Testing of Flow rate, speed and temperature measurements and their effect on performance in machines and mechanisms like hydraulic or pneumatic trainers, lathe machine etc. to increase repeatability and reproducibility. |
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302053.6 |
COMPILE the information of opportunities of entrepreneurships/business in various sectors of metrology like calibrations, testing, coordinate and laser metrology etc in an industry visit report. |
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Course code : 302052 Subject: Skill Development |
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CO No. |
Course Outcome |
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302052.1 |
Analyze the basic principle and mechanism of surface degradation like corrosion triangle in protected or unprotected atmosphere to curtail corrosion formulation |
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302052.2 |
Select correct corrosion prevention techniques, in accordance with ASTM standards for a different service conditions including metallurgical and environmental aspects, for improvement in design to control corrosions. |
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302052.3 |
Relate the role of surface treatment methods like diffusion and heat treatment as per ASTM standards like G105 for selection of steels and their applications in sectors like Mining, Constructions, Transportation, Fabrication. |
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302052.4 |
Select the suitable surface treatments like ion beam, gel and dielectric coating, to improve the surface properties thereby increasing the corrosion resistance in form of powder or suspension. |
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302052.5 |
Evaluate different surface coating techniques like cladding, hot dipping, vapor deposition to increase sustainability in high temperature operations to make the surface feasible in high altitude applications like aerospace and relevant domains. |
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302052.6 |
Judge surface characterizations like coating thickness, defects and remedies for improvement in topography to reduce surface roughness and improvement in surface performance. |
TE SEM I
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Course code : 302049 Subject: Numerical & Statistical Methods |
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CO No. |
Course Outcome |
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302041.1 |
SOLVE system of equations using direct and iterative numerical methods. |
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302041.2 |
ESTIMATE solutions for differential equations using numerical techniques. |
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302041.3 |
DEVELOP solution for engineering applications with numerical integration. |
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302041.4 |
DESIGN and CREATE a model using a curve fitting and regression analysis. |
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302041.5 |
APPLY statistical Technique for quantitative data analysis. |
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302041.6 |
DEMONSTRATE the data, using the concepts of probability and linear algebra. |
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Course code : 302050 Subject: Heat & Mass Transfer |
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CO No. |
Course Outcome |
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302050.1 |
ANALYZE & APPLY the modes of heat transfer equations for one dimensional thermal system.. |
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302050.2 |
DESIGN a thermal system considering fins, thermal insulation and & Transient heat conduction. |
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302050.3 |
EVALUATE the heat transfer rate in natural and forced convection & validate with experimentation results. |
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302050.4 |
INTERPRET heat transfer by radiation between objects with simple geometries, for black and grey surfaces. |
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302050.5 |
ABILITY to analyze the rate of mass transfer using Fick’s Law of Diffusion and understands mass diffusion in different coordinate systems. |
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302050.6 |
DESIGN & ANALYSIS of heat transfer equipments and investigation of its performance. |
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Course code : 302051 Subject: Design of Machine Elements |
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CO No. |
Course Outcome |
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302051.1 |
APPLY the principle of Spur & Helical gear design for industrial application and PREPARE a manufacturing drawing with the concepts of GD&T. |
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302051.2 |
EXPLAIN and DESIGN Bevel & Worm gear considering design parameters as per design standards. |
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302051.3 |
SELECT&DESIGN Rolling and Sliding Contact Bearings from manufacturer's catalogue for a typical application considering suitable design parameters. |
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302051.4 |
DEFINE and DESIGN various types of Clutches, Brakes, used in automobile. |
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302051.5 |
APPLY various concept to DESIGN Machine Tool Gear box, for different applications |
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302051.6 |
ELABORATE various modes of operation, degree of hybridization and allied terms associated with hybrid electric vehicles. |
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Course code : 302054 Subject: Mechatronics |
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CO No. |
Course Outcome |
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302054.1 |
DEFINE key elements of mechatronics, principle of sensor and its characteristics. |
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302054.2 |
UTILIZE concept of signal processing and MAKE use of interfacing systems such as ADC, DAC, Digital I/O. |
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302054.3 |
DETERMINE the transfer function by using block diagram reduction technique.. |
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302054.4 |
. EVALUATE Poles and Zero, frequency domain parameter for mathematical modeling for mechanical system. |
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302054.5 |
APPLY the concept of different controller modes to an industrial application. |
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302054.6 |
DEVELOP the ladder programming for industrial application |
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Course code : 302053 Subject: Elective I (Machining Science &Technology) |
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CO No. |
Course Outcome |
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302053.1 |
DEFINE metal cutting principles and mechanics of metal cutting and tool life. |
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302053.2 |
DESCRIBE features of gear and thread manufacturing processes |
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302053.3 |
SELECT appropriate grinding wheel and demonstrate the various surface finishing processes. |
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302053.4 |
SELECT appropriate jigs/fixtures and to draw the process plan for a given component. |
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302053.5 |
SELECT & EVALUATE various parameters of process planning. |
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302053.6 |
GENERATE CNC program for Turning / Milling processes and generate tool path using CAM software.. |
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Course code : 302052 Subject: Digital Manufacturing Laboratory |
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CO No. |
Course Outcome |
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302052.1 |
DEVELOP a component using conventional machines, CNC machines and Additive Manufacturing Techniques |
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302052.2 |
ANALYZE cutting tool parameters for machining given job. |
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302052.3 |
DEMONSTRATE simulation of manufacturing process using Digital Manufacturing Tools.. |
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302052.4 |
SELECT and DESIGN jigs and Fixtures for a given component.. |
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302052.5 |
DEMONESTRATE different parameters for CNC retrofitting and reconditioning. |
BE SEM II
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Course code : 402049 Subject: Energy Engineering |
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CO No. |
Course Outcome |
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402049.1 |
Describe the power generation scenario, the layout components of thermal power plant and analyze the improved Rankin cycle, Cogeneration cycle |
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402049.2 |
Analyze the steam condensers, recognize the an environmental impacts of thermal power plant and method to control the same |
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402049.3 |
Recognize the layout, component details of hydroelectric power plant and nuclear power plant |
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402049.4 |
Realize the details of diesel power plant, gas power plant and analyze gas turbine power cycle. |
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402049.5 |
Emphasize the fundaments of non-conventional power plants. |
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402049.6 |
Describe the different power plant electrical instruments and basic principles of economics of power generation. |
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Course code : 402050 Subject: ELE III Robotics |
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CO No. |
Course Outcome |
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402050.1 |
UNDERSTAND the basic concepts of Computer Aided Engineering (CAE) and CHARACTERISTICS of various elements required for analysis. |
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402050.2 |
NURTURE students about the discretization process and criteria for quality mesh. |
|
402050.3 |
UNDERSTAND the approaches of Finite Element Method (FEM) and to find displacement and stresses over the body. |
|
402050.4 |
DEVELOP the knowledge and skills needed to effectively evaluate the results using Finite Element Analysis (FEA). |
|
402050.5 |
APPLY computational technique to solve complex solid mechanics problems and its loading states |
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402050.6 |
STUDY the applications of CAE in the various domains of the Mechanical Engineering. |
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Course code : 402051 Subject: Mechanical System Design |
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CO No. |
Course Outcome |
|
402051.1 |
APPLY the principle of Spur & Helical gear design for industrial application and PREPARE a manufacturing drawing with the concepts of GD&T. |
|
402051.2 |
EXPLAIN and DESIGN Bevel & Worm gear considering design parameters as per design standards. |
|
402051.3 |
SELECT&DESIGN Rolling and Sliding Contact Bearings from manufacturer's catalogue for a typical application considering suitable design parameters. |
|
402051.4 |
DEFINE and DESIGN various types of Clutches, Brakes, used in automobile. |
|
402051.5 |
APPLY various concept to DESIGN Machine Tool Gear box, for different applications |
|
402051.6 |
ELABORATE various modes of operation, degree of hybridization and allied terms associated with hybrid electric vehicles. |
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Course code : 402054 Subject: ELE IV Advanced Manufacturing Processes |
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CO No. |
Course Outcome |
|
402054.1 |
DEFINE working principle of components used in hydraulic and pneumatic systems. |
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402054.2 |
IDENTIFY & EXPLAIN various applications of hydraulic and pneumatic systems |
|
402054.3 |
SELECT an appropriate component required for hydraulic and pneumatic systems using manufactures’ catalogues. |
|
402054.4 |
SIMULATE & ANALYSE various hydraulic and pneumatic systems for industrial/mobile applications. |
|
402054.5 |
DESIGN a hydraulic and pneumatic system for the industrial applications. |
|
402054.6 |
DESIGN & DEMONESTRATE various IoT, PLC based controlling system using hydraulics and pneumatics. |
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Course code : 402053 Subject: ELE III Industrial Engineering |
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CO No. |
Course Outcome |
|
402053.1 |
EVALUATE causes of errors in Vernier calipers, micrometers by performing experiments in standard metrological conditions, noting deviations at actual and by plotting cause and effect diagram, to reduce uncertainty in measurement. |
|
402053.2 |
ANALYZE strain measurement parameters by taking modulus of elasticity in consideration to acknowledge its usage in failure detection and force variations. |
|
402053.3 |
EXAMINE surface Textures, surface finish using equipment’s like Talysurf and analyze surface finish requirements of metrological equipment’s like gauges, jaws of vernier calipers, micrometers, magnifying glasses of height gauge and more, to optimize surface finish accuracy requirements and cost of measurement. |
|
402053.4 |
MEASURE the dimensional accuracy using Comparator and limit gauges and appraise their usage in actual measurement or comparison with standards set to reduce measurement lead time |
|
402053.5 |
PERFORM Testing of Flow rate, speed and temperature measurements and their effect on performance in machines and mechanisms like hydraulic or pneumatic trainers, lathe machine etc. to increase repeatability and reproducibility. |
|
402053.6 |
COMPILE the information of opportunities of entrepreneurships/business in various sectors of metrology like calibrations, testing, coordinate and laser metrology etc in an industry visit report. |
|
Course code : 402052 Subject: ELE IV Solar & Wind Energy |
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CO No. |
Course Outcome |
|
402052.1 |
Analyze the basic principle and mechanism of surface degradation like corrosion triangle in protected or unprotected atmosphere to curtail corrosion formulation |
|
402052.2 |
Select correct corrosion prevention techniques, in accordance with ASTM standards for a different service conditions including metallurgical and environmental aspects, for improvement in design to control corrosions. |
|
302052.3 |
Relate the role of surface treatment methods like diffusion and heat treatment as per ASTM standards like G105 for selection of steels and their applications in sectors like Mining, Constructions, Transportation, Fabrication. |
|
402052.4 |
Select the suitable surface treatments like ion beam, gel and dielectric coating, to improve the surface properties thereby increasing the corrosion resistance in form of powder or suspension. |
|
402052.5 |
Evaluate different surface coating techniques like cladding, hot dipping, vapor deposition to increase sustainability in high temperature operations to make the surface feasible in high altitude applications like aerospace and relevant domains. |
|
402052.6 |
Judge surface characterizations like coating thickness, defects and remedies for improvement in topography to reduce surface roughness and improvement in surface performance. |
BE Sem I
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Course code : 402041 Subject: Hydraulics and Pneumatics |
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CO No. |
Course Outcome |
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402041.1 |
To describe the fundamental concepts and governing laws of Hydraulics & Pneumatic systems (B2) |
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402041.2 |
To understand operating principle of different components used in hydraulic and pneumatic systems. (B3) |
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402041.3 |
To select various components for hydraulic and pneumatic systems. (B5) |
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402041.4 |
To use hydraulic and pneumatic circuits in various Industrial applications. (B3) |
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402041.5 |
To understand low cost automation by using pneumatic systems.(B3) |
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402041.6 |
To design and formulate any hydraulic and pneumatic circuits. (B6) |
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Course code : 402042 Subject: CAD CAM Automation |
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CO No. |
Course Outcome |
|
402042.1 |
Analyze and design real world components |
|
402042.2 |
Suggest whether the given solid is safe for the load applied. |
|
402042.3 |
Select suitable manufacturing method for complex components |
|
402042.4 |
To develop different types of surfaces with the help of different curves |
|
402042.5 |
Implement proper Rapid prototyping method for particular component |
|
402042.6 |
Select the proper automation and robotic structure for particular system |
|
Course code : 402043 Subject: Dynamics of Machinery |
|
|
CO No. |
Course Outcome |
|
402043.1 |
Students will be able to determine the unbalance in rotating & reciprocating machines and to determine the correction required. |
|
402043.2 |
Student Should be able to understand the concept of Single DOF free and force vibrations to various system |
|
402043.3 |
Students will be able to understand the 2 and Multidegree of freedom System for Damped and Undammed Vibration for various systems. |
|
402043.4 |
Students will be able to model and analyze simple, two degrees of freedom vibration systems. |
|
402043.5 |
Students will be able to measure the vibration and methods to controls the vibrations. |
|
402043.6 |
Students will be able to carry out noise analysis and Methods to control unwanted sound of machine and its component. |
|
Course code : 402044A Subject: Finite Element Analysis |
|
|
CO No. |
Course Outcome |
|
402044A.1 |
To explain the fundamentals of FEA pertaining to structural and heat transfer domain. (B2) |
|
402044A.2 |
To formulate and solve 1D element structural problems involving bars, beams, trusses, frame problems. (B6) |
|
402044A.3 |
To construct and solve 2D element problems involving triangular & quadrilateral elements. (B6) |
|
402044A.4 |
To construct and solve 2D element problems involving axi-symmetric, iso-parametric & higher order elements. (B6) |
|
402044A.5 |
To formulate and solve 1D element steady state heat transfer problems. (B6) |
|
402044A.6 |
To evaluate appropriate FEA technique to solve dynamic vibrational problems.(B5) |
|
Course code : 402045A Subject: Automobile Engineering |
|
|
CO No. |
Course Outcome |
|
402045A.1 |
Student will be able to interpret various types of vehicle layouts and specifications of Automobiles with its importance |
|
402045A.2 |
Student will be able to select various drive trains and transmission systems to improve vehicle performance |
|
402045A.3 |
Student will be able to distinguish axles, steering systems and tyre and wheel assembly |
|
402045A.4 |
Student will be able to apply the knowledge of various types of suspension and brake systems |
|
402045A.5 |
Student will be able to examine performance and safety systems with modern technologies of Automobiles |
|
402045A.6 |
Student will be able to interpret the problems of automobiles with the knowledge of electrical systems and batteries in vehicle maintenance |
|
Course code : 402046 Subject: Project Stage-I |
|
|
CO No. |
Course Outcome |
|
402046.1 |
Implement suitable methodology to solve the Problems pertaining to the mechanical engineering by utilizing the knowledge gained during the curriculum. |
|
402046.2 |
Create the sustainable, economic and environmental friendly solution to the considered problem and analyze the same by effective utilization of relevant tools and techniques. |
|
402046.3 |
Develop managerial skills and work as a team for obtaining the solution of mechanical or interdisciplinary engineering related problems within stipulated time, following morality and ethics. |
PO's
Programme Outcomes
Every student passing out from B E (Mechanical) Programme :
- To train student to apply knowledge of engineering, science and mathematics to problem solving.
- To analyse engineering problems.
- To design solution to problems.
- To train student to be able to carry out methodical investigation.
- To be able to use modern IT tools.
- To be able to assess societal, cultural, health, safety and legal issues.
- To be able to understand effect of solution on environment.
- To be able to take ethical decisions.
- To be able to work in multidisciplinary teams as team member or team leader.
- To be able to communicate orally and in writing. To be able to give presentations.
- To be able to manage a project.
- To be able to update knowledge continuously and be lifelong learner.
PSO's
Programme Specific Outcomes
At completion graduates will be able to competently:
- Apply the knowledge of Mathematics, Sciences and engineering fundamentals to formulate, analyze and provide solutions to the problems related to Mechanical engineering and communicate them effectively to the concerned.
- Design mechanical systems in various fields such as machine elements, thermal, manufacturing, industrial and inter-disciplinary fields by using various engineering/technological tools to meet the mercurial needs of the industry and society at large.
- Choose further studies for research in topics such as design engineering thermodynamics, heat transfer, manufacturing processes as per his ability and inclination to solve real life technical problems in the Indian and foreign industries.
- Get knowledge of material science, metallurgy, measurement techniques, automatic feedback control, hydraulic and pneumatic control which will be able to distinguish between right and wrong engineering procedures.
PEO's
Programme Educational Objectives
-
To be able to demonstrate application of knowledge gained from study of science, engineering, mathematics and latest softwares to analyze and solve technical problems leading to environmental protection, use of green energy, improvisation of medical facilities and improvement in conservation of water.
-
To be able to demonstrate ability to work in teams as member or as a leader in diverse and multidisciplinary teams. To be able to communicate verbally and in writing. To be able to write reports / Root cause analysis (RCAs) / Failure modes and effects analysis (FMEA) and other similar documents. To be able to give presentations. To be able to give and take clear instructions.
-
To be able to demonstrate the ability to be life-long learner so that the student will continuously upgrade skills as per the job requirement for the benefit of society. During functioning in industry or otherwise student should be able to demonstrate ability to assess impact of knowledge on environment, safety, health, legal and cultural issues.
-
To be able to demonstrate ability of project management and financial management. Student should be aware of ethical principles and norms of good engineering practices.
DAB
Department Advisory Board
|
Sr. No. |
Name of the Member |
Designation
|
|
1 |
Mr. P. R. Ghodake General Manager. Emissions. Force Motors. Pune |
Industry Experts
|
|
2 |
Mr. Pravin Akharte Head-Project Management (PMO), SKODA AUTO |
|
|
3 |
Dr. Subin Khan Professor. JSPM's RSCOE. Tathavde, Pune |
External Academicians
|
|
4 |
Dr. Avinash Kamble Associate Professor. MIT Academy of Engineering Pune |
|
|
5 |
Dr. Manoj D Hambarde Asso. Prof. MIT world Peace Universily.Pune |
|
|
6 |
Mr. Saraabjeet Singh CEO & MD. Samar JFSv Consuling. Germany |
Alumni |
|
7 |
Mr. Surendra Patwardhan Owner & Director, Soham Consultant.Pune |
|
|
8 |
Dr. P.T. Nitnaware (HOD.Mechanical) |
In house Faculty Members |
|
9 |
Dr. T. Dey (Academic Coordinator) |
|
|
10 |
Mrs Swati Dhamal and Dr. V A Kulkarni |
|
|
11 |
Mr. Prathamesh Gupta (Final Year. BE) |
Class Toppers |
|
12 |
Mr. Kevin patel (Third Year) |
|
|
13 |
Mr.Bipin Kumar (Second Year) |
DAB MOM |
 |
ICT
Innovative Teaching Learning Practices
|
Sr. No. |
Type of Innovative Teaching Methods |
Description |
Remarks of Comments etc. |
|
1 |
Google Classroom |
Faculty Members delivers important Concepts using this mode also |
Source: Google Inc. |
|
2 |
MOODLE |
Assignments & information is available to students on MOODLE for use |
|
|
3 |
NPTEL Videos |
Effective Teaching is carried out with help of NPTEL Videos also. |
Source : IITs |
|
4 |
Spoken Tutorials |
Students are made available with Spoken Tutorials Lectures |
|
|
5 |
Group Discussion/Pair-Think-Share |
In classroom Group Discussion is carried out for effective learning |
|
|
6 |
Industrial Visits/seminars/Workshop |
Industrial Visits, Seminars, Expert Lecture & Workshop are conducted in order to help students to learn beyond syllabus |
Resource Persons from Vast Area of Expertization |
|
7 |
Online Youtube Videos by Faculty |
Faculty Members Upload their Teaching Videos |
Source: Youtube |
|
8 |
My Examo |
Faculty Members conduct Practice Test for Students |
|
|
9 |
Websites/Blogs |
Faculty members also have their own website / Blogs for sharing Knowledge with student. |
|
|
10 |
ICT / PPTs |
Use of ICT is employed by faculty members. |
Source: Self Prepared PPTs, video lectures etc. |
|
11 |
COLLPOLL |
Use of COLLPOLL by teachers as well as students for assignment, attendance, unit tests etc. |
|
|
12 |
Virtual Labs |
Use of Virtual Lab from IITs is employed by faculty |
Source: COEP,IITs etc. |
Alumni
Alumni Meet
Alumni Meet 2021 Online held on Microsoft Teams at DYPCOE Akurdi, Pune
Alumni Meet 2018 held at Dubai UAE on 8th Nov 2018
The purpose of Alumni Meet was to contribute and strengthen the gap between International Alumni and DYPCOE Akurdi. It was a proud moment to meet alumni of 1985-1989 batch Mr. Dileep Chanchalani working as Marketing Manager at Gulf Ocean Lights LLC UAE.
Distinguished Alumni
| Sr. No. | First Name | Year of Passing | Designation | Current Working Company |
Photo |
| 1 | Mr. Balan Selvam | 1998 | Section Manager | (HVAC), UAE |  |
| 2 | Mr. Anup Anil Gupte | 1998 | Project Engineer | USA |  |
| 3 | Mr. Bhushan Deoram Khodpe | 1999 | Sales Account Executive | Nordics - Geometric Europe Gmbh Filial Sweden |  |
| 4 | Mr. Anubhav Shrivastav | 2002 | Left. Colonel | Indian Army, New Delhi |  |
| 5 | Mr. Siddhesh Poapat Bhalerao | 2010 | Sci. Engg. | VIKRAM SARABHAI SPACE CENTRE, ISRO, THIRUVANANTHAPURAM |  |
| 6 | Mr. Chaitanya Sadashiv Dubal | 2010 | Scientific officer | Bhabha Atomic Research Centre, Mumbai |  |
| 7 | Mr. Kumar Swami | 2000 | Director | Agro. India |  |
| 8 | Mr. Prashant Shinde | 1994 | Director | Green Water Solutions Provider Pvt. Ltd., Pune |  |
| 9 | Mr. Niraj Walia | 1998 | Director | Walia Industries. |  |
| 10 | Mr. Anil Walunj | 1998 | Director | Orion Infotech and Orient Solutions, Pimpri, Pune |  |
| 11 | Mr. Nilesh Dhariya | 1998 | Director | Dharia Engineers, Pune |  |
| 12 | Mr. Nachket Phadake | 2002 | Director | Director, Eleno Energy (Founder) |  |
| 13 | Mr. Amit Kumar | 2009 | Owner of AV Electromech Solution | MD at Saumannaya Solar & Electrical Services Pvt. Ltd. Owner of AV Electromech Solution |
 |
| 14 | Mr. Santosh Mahadeo Shinde | 1998 | Sr Manager Quality | Fleetguard filters pvt ltd , A cummins group company Pune |
 |
| 15 | Mr. Amol Devidasrao Kalbende | 1998 | Senior Manager | Quality, Lanco Amarkantak Power Ltd, Korba |  |
| 16 | Mr. Vikas Babaji Wayal | 2000 | Deputy General Manager | Johnson Controls Automotive Ltd |  |
| 17 | Mr. PARAS PRATAP PATIL | 1998 | Chief engineer | Merchant Navy |  |
| 18 | Mr. Atul Renavekar | 2000 | Executive Director | Michelin India Pvt Ltd |  |
| 19 | Mr. Ashish Gawade | 2000 | General Manager (Sales and Markating) | Cummins Engg. Pune |  |
| 20 | Mr.Moreshwar Kamalakar Dabholkar | 2000 | Project Manager | Elex India Pvt Ltd. |  |
| 21 | Mr. Atish Haribhau Sonavane | 2003 | MANAGER | Volkswagon India |  |
| 22 | Mr. Nesar Padmaraj Kalasur | 2003 | Sales & Business Devp Manager | Bosch India |  |
| 23 | Mr. Nilesh Ravindra Kadambande | 2003 | Chief engineer | Merchant navy |  |
| 24 | Mr. Mitulkumar Jayantilal Vashi | 2004 | General Manager Marketing | NHB Ball and Roller Limited. AMALSAD. Navsari |
 |
| 25 | Mr. Amol Tillu | 2004 | Project Manager | Geometric Software Solutions Ltd. |  |
Testimonials
Testimonials
Ashish Sudhir Kamble
BE Mechanical – 2020 Graduating Batch.
Placed in Voltas India Ltd.
D. Y. Patil college of Engineering, Akurdi believe in helping and guiding students. They always focus on improving the technical skills as well as Communication Skills of students from the very first year of engineering. College conducts regularly training to improve the Aptitude, Group Discussion and Personal Interview skills. As a result of all the inputs provided by the college, I was successful in getting placed in a CORE company. My thanks to all faculty and T&P Cell for the support and motivation.
Harshvardhan Sanjay Patil
BE Mechanical – 2020 Graduating Batch
Placed in Kone Cranes
I am grateful to Training and placement Cell for constant monitoring and guidance for our successful placement in our dream industry. Simultaneously faculty also makes consistent and continuous efforts to up skill the technical skills of students. I got the opportunity to showcase my abilities in the recruitment process of a reputed organization, Kone Cranes.
Nikita Rajendrakumar Patil
BE Mechanical – 2020 Graduating Batch
Placed in Worley Parsons
My sincere appreciation and gratitude to the Training and placement Cell for providing ample amount of opportunities to us wrt campus recruitment. I got an opportunity to apply and got selected in Worley Parsons. The Language Lab sessions helped me to upgrade my Communication Skills and participation in Technical competitions helped me to upgrade my technical skills. My teachers were very helpful and supported me during my four years of engineering.
Omkar Vijay Nanaware
BE Mechanical – 2020 Graduating Batch
Placed in TCS & Infosys
DYPCOE, Akurdi is a right combination of Academics, Co-curricular and extra-curricular activities for students. I have been an active member of MESA (Mechanical Engineering Students' Association) right from second year and it helped me to grow in all aspects. Moreover, the college faculties always supported and encouraged us to explore new avenues and career prospects. I am grateful to college T&P cell for preparing us for placement drives. I wanted to start my career in IT industry and I was fortunate to get selected in two IT companies of our country.
Vishal Narendra Palve
BE Mechanical – 2020 Graduating Batch
Placed in Keyence.
The faculty of mechanical engineering department has been very supportive throughout the four years of engineering. They guided me and at the same time motivated me to pursue extracurricular activities along with my regular academics. The placement department ensures that Mechanical Engineering students are placed in CORE Industries. I must put this on record that every year more than 85 % of students are placed in Core companies. The college has an excellent relationship with industry ensuring maximum opportunities to students wrt exposure in industry prior to getting placed.
Mr.Gaurav Bihani
Year of Passing - 2016
The academic experience with a world class infrastructure and excellent faculty at DYPCOE has endured me with a lifelong career excellence. The exceptional programmes and teaching methodologies backed by practical skills and industry interface have given me the confidence to pursue my career ahead. The all-time support and motivation of the faculty members of DYPCOE has enlightened me throughout the beautiful journey.
Mr. Pushpak
Year of Passing - 2016
DYPCOE is the nice place to enjoy life along with the study. It gives nice opportunity to work on interesting areas (e.g. BAJA, SUPRA). I learnt many things here which are helping me in my professional world. I will cheers the moments forever that I spent here.
Mr. Kaustubh Sahligram
Year of Passing - 2016
I can positively say D Y Patli College has made me a better person. It has helped me to develop a positive attitude towards my studies and discover more about myself. Teachers are very caring and interested in student’s well-being. They make sure every class is fun, educational and interactive.
Miss. Nidhi Nair
Year of Passing – 2016
The education I received at D Y Patil College of Engineering has helped me a lot to first of all give me an orientation of what I would like to do and secondly the practical approach providing me with valuable information and helping me every day in my career.
Mr. Siddhesh Patil
Year of Passing - 2016
DYPCOE has got one of the best infrastructural facilities and very good faculty. As far as the placements are concerned, enough opportunities are provided to every student and it is upto the individual how you take it. Moreover, having a placement policy in order makes thing even more transparent.
I am really lucky and proud to have been a part of this institution not only because i got placed but because of the things i have learned over there.