Course Outcome 6th Semester
Subject Code: C037611 (037)
Course Outcomes: Design of Machine Elements
At the end of the course the students should be able to:
CO306.1 | Understand the mechanical properties of material, factor of safety, theories of failures, Notch sensitivity, endurance diagrams, design stress for variable and repeated load sand calculate Stress concentration factor in tension, bending and torsion |
CO306.2 | Design and analyse of socket-spigot cotter joint, sleeve and cotter joint, Knuckle joint. application of key, coupling and design calculation of key, spline, flange coupling, flexible coupling, compression coupling, muff coupling. |
CO306.3 | Design and analyse transmission shaft on the basis of static load, strength, rigidity, stiffness, continuous loading for fatigue condition. properties of frictional material and calculate the torque transmission capacity of the single plate, multi-plate and centrifugal clutch. |
CO306.4 | Understand the geometry of thread forms, terminology of screw threads, thread standards and design of bolted joints due to eccentric loading, Statically loaded tension joints, Force analysis-square and trapezoidal threads with and without Collar friction and calculate the efficiency of thread. |
CO306.5 | Understand the riveted and welded joints, strength of rivet and welded joints, welded joints due to the eccentric loading, welded joint subjected to bending moment, design and efficiency calculation of riveted joint for Boiler. |
Subject Code: C037612 (037)
Course Outcomes: Manufacturing Technology
At the end of the course the students should be able to:
CO307.1 | Understand Grinding Processes Grinding wheels, compositions- abrasives, bonding materials. Grinding wheel characteristics-abrasive type, grain size, bonding material, structure, and grade. Wheel specification and selection. Wheel life. Types of grinding operations, design consideration for grinding, specification of grinding wheel, process, parameters, economics of grinding. Surface finishing operations: Honing, lapping, super finishing, polishing, buffing, process parameters and attainable grades of surface finish. |
CO307.2 | Understand Processes-Electro Discharge Machining (EDM), Electro Chemical Machining (ECM), Ultrasonic Machining (USM), Abrasive Jet Machining (AJM), Electron Beam Machining (EBM), Laser Beam Machining (LBM), Electro Chemical grinding (ECG).Advantages, application and limitation Mechanics of metal removal, tooling, equipment, process parameters and surface Finish obtained & specific applications |
CO307.3 | Understand metal forming: Classification, Hot and Cold working. Forging: Principle. Forging operations, drawing out and upsetting. Types of forging method-smith, drop, press and machine forging. Forging equipment. Forging dies. Tools and fixture of forging, forging dies. Forging design, Forging designs factors. Drop forging die design, upset forging die design. Forgingpractice–sequenceofsteps.Forgingdefects.Inspectionandtestingofforgedpart s. Extrusion: Principle, extrusion processes-hot extrusion, cold extrusions. Process parameters. Extrusion equipment. Extrusion of seamless tubes.Extrusion defects |
CO307.4 | Understand Rolling: Principle, classification of rolled products, Types of rolling mills, rolling mill train components, Roll pass sequences-break down passes, roughing passes, finishing passes. Roll passes design for continuous mill. Roll separating force. Rolling load calculation. Power required in rolling. Effect of front and back tensions. Effect of friction. Shape rolling operations-ring rolling, thread rolling. Defects in rolled products. Drawing: Principle. Wire drawing, tube drawing. Drawing equipment and dies. Calculation of drawing load and power requirement |
CO307.5 | Understand Sheet metal forming: Types of presses, Selection of press, component sofa simple press, press working operations shear, bending. Shearing operations: Blanking, piercing, trimming, shaving, nibbling and notching. Calculation of punching force and shear force. Punch and die size calculation. Drawing operation: Principle of operation. Draw dies design. Bending operation: Principle of operation. Bend allowances. Bending force. Length of sheet estimation. Bend radius. Spring back effect. Other operation: Spinning. Stretch forming, Embossing and Coining. |
Subject Code: C037613 (037)
Course Outcomes: Heat and Mass Transfer
At the end of the course the students should be able to:
CO308.1 | Understanding Conduction, Convection & Radiation, Combined modes of heat transfer, Derivation of general differential equation of heat conduction in Cartesian co-ordinate, linear heat flow through a plane and composite wall and solve steady state conduction problems with heat generation. Understanding concepts of heat conduction without heat generation in cylinder and sphere, critical thickness of insulation and solve steady state conduction problems without heat generation. |
CO308.2 | Acquire knowledge about types of fins, Fin equation for rectangular profile, obtaining solution for infinite length, negligible heat loss from fin tip, finite long and heat transfer from fin tip, and calculate effectiveness and efficiency of fins. Understanding Lumped system analysis and solve transient heat conduction problems in large plane wall, long cylinders and sphere through Heisler`s chart. |
CO308.3 | Understanding the of forced convection & Natural convection, Dimensional analysis of forced and natural convection, Flow across cylinders and spheres, Flow in tubes, Reynold’s analogy and convective heat transfer correlations related to Forced and Natural convection. |
CO308.4 | Understand two-phase heat transfer, Pool boiling, boiling regimes and boiling curve , Condensation heat transfer, Heat transfer correlation for inclined plates, vertical tubes, Horizontal bank tubes and Mass transfer in laminar and turbulent convection, Molecular diffusionand also calculate mass-diffusion. |
CO308.5 | Ability to perform energy analysis in Parallel & Counter flow heat exchanger and obtain LMTD and NTU relations to measure heat exchanger’s performance and Concept of black body & grey body, Radiant heat exchange between two parallel grey surface and concentric cylinders and obtain relations for radiative heat transfer between surfaces and understand the Concept of irradiation and radiosity. |
Subject Code: C037632 (037)
Course Outcomes: Power Plant Engineering
At the end of the course the students should be able to:
CO309.1 | Understand the sources of power, types and elements of steam, nuclear, diesel and hydroelectric power plant the arrangement of element, complements and site selection of steam, nuclear, diesel and hydroelectric power plant and understand the elements of primary and secondary distribution substation |
CO309.2 | Understand the steam power plant with its selecting medium, calculate heat balance sheet in steam cycles, heat rates, comparisons of efficiencies gas loop, fuels and fuel handling , ash handling, air pre-heater, feed water pre-heater, deaerator, feed water treatment, pumping, regulating walls and modern development in steam boiler, important instrumentation, piping of gas and water loop of steam power plant. |
CO309.3 | Understand the suitability of diesel engine for bulk power generation, advantages, limitations, efficiency and heat balance of diesel power plant, power potential with reference to rainfall, catchments area, water storage, equipment and factor governing the cost of hydro-electric power plant characteristics of hydraulic turbines, comparison of the factors governing the cost of hydro steam and diesel power stations. |
CO309.4 | Understand fission and fusion process of evolution of nuclear energy, arrangement of element of gas cooled, boiling water, liquid cooled, metal cooled nuclear reactor and safety of nuclear power station |
CO309.5 | Calculate load factor, use factor, utilization factor, and capacity factor, load curve, load duration curve in variable load and its importance in plant design, operation, load dispatch and economics of power plant. |
Course Outcomes: Principles of Management
At the end of the course the students should be able to:
CO3010.1 | Understand definition, objectives, scope, benefits and functions of production management, place of production management in an organization, types of production system, product life cycle, product design and development, production cycle, elements of costs, break even analysis, incremental costs, make or buy decision |
CO3010.2 | Calculate sales forecasting using Delphi, linear regression, economic indicators, time-series analysis, moving average and exponential smoothing |
CO3010.3 | Understand functions, organization, master scheduling, aggregate planning, materials requirement planning, routing, forward and backward, loading Scheduling of production planning control, Calculate optimal Sequencing using Johnson’s algorithm for n jobs and two machines, Gantt’s chart, Bar chart, Flow process chart, types of materials handling equipment, relation between materials handling and plant layout. |
CO3010.4 | Understand Objectives, functions and organization of materials management and objectives of purchase department, purchase responsibilities and organization, types of purchasing, purchase procedures, functions of stores, identification and maintenance of stores materials, issuing of stores, techniques of inventory control, economic ordering quantity, periodic ordering quantity, A.B.C. analysis, general idea regarding inventory control under risk and uncertainty |
CO3010.5 | Understand difference between inspection and quality control, acceptance sampling, procedure’s risk and consumer’s risk, operating characteristic curve for single sampling plan, acceptable order quality level, quality of conformance, quality of design, economics of quality, statistical quality control charts for variables and attributes, just in time manufacturing and Kanban system |