DBATU - Syllabus
Course Outcome
BTMEC302 - Material Science and Metallurgy
CO1 |
Study various crystal structures of materials. |
CO2 |
Understand mechanical properties of materials and calculations of same using appropriate equations. |
CO3 |
Evaluate phase diagrams of various materials. |
CO4 |
Suggest appropriate heat treatment process for a given application. |
CO5 |
Prepare samples of different materials for metallography. |
CO6 |
Recommend appropriate NDT technique for a given application. |
BTMEC303 Fluid Mechanics
CO1 |
Define fluid, define and calculate various properties of fluid. |
CO2 |
Calculate hydrostatic forces on the plane and curved surfaces and explain stability of floating bodies. |
CO3 |
Explain various types of flow. Calculate acceleration of fluid particles. |
CO4 |
Apply Bernoulli’s equation and Navier-Stokes equation to simple problems in fluid mechanics. |
CO5 |
Explain laminar and turbulent flows on flat plates and through pipes. |
CO6 |
Explain and use dimensional analysis to simple problems in fluid mechanics. |
CO7 |
Understand boundary layer, drag and lift. |
BTMEC304 Machine Drawing and Computer Aided Drafting
CO1 |
Interpret the object with the help of given sectional and orthographic views. |
CO2 |
Construct the curve of intersection of two solids. |
CO3 |
Draw machine element using keys, cotter, knuckle, bolted and welded joint. |
CO4 |
Assemble details of any given part. i. e. valve, pump , machine tool part etc. |
CO5 |
Represent tolerances and level of surface finish on production drawings. |
CO6 |
Understand various creating and editing commands in Auto Cad. |
BTMEC305 Thermodynamics
CO1 |
Define the terms like system, boundary, properties, equilibrium, work, heat, ideal gas, entropy etc. used in thermodynamics. |
CO2 |
Study different laws of thermodynamics and apply these to simple thermal systems like balloon, piston-cylinder arrangement, compressor, pump, refrigerator, heat exchanger, etc. to study energy balance. |
CO3 |
Study various types of processes like isothermal, adiabatic, etc. considering system with ideal gas and represent them on p-v and T-s planes. |
CO4 |
Apply availability concept to non-flow and steady flow type systems. |
CO5 |
Represent phase diagram of pure substance (steam) on different thermodynamic planes like p-v, T-s, h-s, etc. Show various constant property lines on them. |
BTMEC - 401 - Manufacturing Processes - I
CO1 |
Identify castings processes, working principles and applications and list various defects in metal casting. |
CO2 |
Understand the various metal forming processes, working principles and applications. |
CO3 |
Classify the basic joining processes and demonstrate principles of welding, brazing and soldering. |
CO4 |
Study centre lathe and its operations including plain, taper turning, work holding devices and cutting tool. |
CO5 |
Understand milling machines and operations, cutters and indexing for gear cutting. |
CO6 |
Study shaping, planing and drilling, their types and related tooling's. |
BTMEC 402 - Theory of Machines - I
CO1 |
Define basic terminology of kinematics of mechanisms. |
CO2 |
Classify planar mechanisms and calculate its degree of freedom. |
CO3 |
Perform kinematic analysis of a given mechanism using ICR and RV methods. |
CO4 |
Perform kinematic analysis of a given mechanism analytically using vector or complex algebra method. |
CO5 |
Perform kinematic analysis of slider crank mechanism using Klein’s construction and analytical approach. |
BTMEC 403 - Strength of Materials
CO1 |
State the basic definitions of fundamental terms such as axial load, eccentric load, stress, strain, E, μ, etc. |
CO2 |
Recognize the stress state (tension, compression, bending, shear, etc.) and calculate the value of stress developed in the component in axial/eccentric static and impact load cases. |
CO3 |
Distinguish between uniaxial and multiaxial stress situation and calculate principal stresses, max. shear stress, their planes and max. normal and shear stresses on a given plane. |
CO4 |
Analyze given beam for calculations of SF and BM. |
CO5 |
Calculate slope and deflection at a point on cantilever /simply supported beam using double integration, Macaulay’s , Area-moment and superposition methods. |
CO6 |
Differentiate between beam and column and calculate critical load for a column using Euler’s and Rankine’s formulae. |
BTMEC 404 - Numerical Methods in Mechanical Engineering
CO1 |
Describe the concept of error. |
CO2 |
Illustrate the concept of various Numerical Techniques. |
CO3 |
Evaluate the given Engineering problem using the suitable Numerical Technique. |
CO4 |
Develop the computer programming based on the Numerical Techniques. |
BTID 405 - Product Design Engineering – I
CO1 |
Create simple mechanical designs. |
CO2 |
Create design documents for knowledge sharing. |
CO3 |
Manage own work to meet design requirements. |
CO4 |
Work effectively with colleagues. |
BTBSE 3405A Advanced Engineering Chemistry
CO1 |
Classify and explain various types of Corrosion and should apply methods to minimize the rate of corrosion. |
CO2 |
Understand and apply the concepts of Photochemical and Thermal reactions. |
CO3 |
Understand the basic concepts of Polymers, Polymerization and Moulding techniques; Determine molecular weight of High-Polymers. |
CO4 |
Understand and apply the basic techniques in Chemistry and capable to explain the concepts of Solvent Extraction. |
CO5 |
Understand and apply various types of Spectroscopic, Chromatographic techniques and also able to explain the concepts of Thermo-Gravimetric Analysis (TGA). |
BTMEC 501 - Heat Transfer
CO1 |
Explain the laws of heat transfer and deduce the general heat conduction equation and to explain it for 1-D steady state heat transfer in regular shape bodies. |
CO2 |
Describe the critical radius of insulation, overall heat transfer coefficient, thermal conductivity and lumped heat transfer. |
CO3 |
Interpret the extended surfaces. |
CO4 |
Illustrate the boundary layer concept, dimensional analysis, forced and free convection under different conditions. |
CO5 |
Describe the Boiling heat transfer, mass transfer and Evaluate the heat exchanger and examine the LMTD and NTU methods applied to engineering problems. |
CO6 |
Explain the thermal radiation black body, emissivity and reflectivity and evaluation of view factor and radiation shields. |
BTMEC 502 - Applied Thermodynamics - I
CO1 |
Define the terms like calorific value of fuel, stoichiometric air-fuel ratio, excess air, equivalent evaporation, boiler efficiency, etc. Calculate minimum air required for combustion of fuel. |
CO2 |
Study and Analyze gas power cycles and vapour power cycles like Otto, Diesel, dual, Joule and Rankine cycles and derive expressions for the performance parameters like thermal efficiency, Pm. |
CO3 |
Classify various types of boiler, nozzle, steam turbine and condenser used in steam power plant. |
CO4 |
Classify various types of IC engines. Sketch the cut section of typical diesel engine and label its components. Define the terms like TDC, BDC, rc, etc. |
CO5 |
Draw P-v diagram for single-stage reciprocating air compressor, with and without clearance volume, and evaluate its performance. Differentiate between reciprocating and rotary air compressors. |
BTMEC503 - Machine Design - I
CO1 |
Formulate the problem by identifying customer need and convert into design specification. |
CO2 |
Understand component behavior subjected to loads and identify failure criteria. |
CO3 |
Analyze the stresses and strain induced in the component. |
CO4 |
Design of machine component using theories of failures. |
CO5 |
Design of component for finite life and infinite life when subjected to fluctuating load. |
CO6 |
Design of components like shaft, key, coupling, screw and spring. |
BTMEC504 - Theory of Machines – II
CO1 |
Identify and select type of belt and rope drive for a particular application. |
CO2 |
Evaluate gear tooth geometry and select appropriate gears, gear trains. |
CO3 |
Define governor and select/suggest an appropriate governor. |
CO4 |
Characterize flywheels as per engine requirement. |
CO5 |
Understand gyroscopic effects in ships, aeroplanes, and road vehicles. |
CO6 |
Understand free and forced vibrations of single degree freedom systems. |
BTMEC 505 - Metrology and Quality Control
CO1 |
Identify techniques to minimize the errors in measurement. |
CO2 |
Identify methods and devices for measurement of length, angle, and gear and thread parameters, surface roughness and geometric features of parts. |
CO3 |
Choose limits for plug and ring gauges. |
CO4 |
Explain methods of measurement in modern machineries. |
CO5 |
Select quality control techniques and its applications. |
CO6 |
Plot quality control charts and suggest measures to improve the quality of product and reduce cost using Statistical tools. |
BTMEC 506A - Automobile Engineering
CO1 |
Identify the different parts of the automobile. |
CO2 |
Explain the working of various parts like engine, transmission, clutch, brakes etc., |
CO3 |
Demonstrate various types of drive systems. |
CO4 |
Apply vehicle troubleshooting and maintenance procedures. |
CO5 |
Analyze the environmental implications of automobile emissions. And suggest suitable regulatory modifications. |
CO6 |
Evaluate future developments in the automobile technology. |
BTMEC 606C Human Resource Management
CO1 |
Describe trends in the labor force composition and how they impact human resource management practice. |
CO2 |
Discuss how to strategically plan for the human resources needed to meet organizational goals and objectives. |
CO3 |
Define the process of job analysis and discuss its importance as a foundation for human resource management practice. |
CO4 |
Explain how legislation impacts human resource management practice. |
CO5 |
Compare and contrast methods used for selection and placement of human resources. |
CO6 |
Describe the steps required to develop and evaluate an employee training program |
CO7 |
Summarize the activities involved in evaluating and managing employee performance. |
CO8 |
Identify and explain the issues involved in establishing compensation systems. |
BTMEC-605C Renewable Energy Sources
CO1 |
Explain the difference between renewable and non-renewable energy. |
CO2 |
Describe working of solar collectors. |
CO3 |
Explain various applications of solar energy. |
CO4 |
Describe working of other renewable energies such as wind, biomass. |
CO5 |
Understand the process of powder metallurgy and its applications. |
BTMEC601 - Manufacturing Processes - II
CO1 |
Calculate the cutting forces in orthogonal and oblique cutting. |
CO2 |
Evaluate the machinability of materials. |
CO3 |
Understand the abrasive processes. |
CO4 |
Explain the different precision machining processes. |
CO5 |
Design jigs and fixtures for given application. |
BTMEC 602 - Machine Design - II
CO1 |
Define function of bearing and classify bearings. |
CO2 |
Understanding failure of bearing and their influence on its selection. |
CO3 |
Classify the friction clutches and brakes and decide the torque capacity and friction disk parameter. |
CO4 |
Select materials and configuration for machine element like gears, belts and chain. |
CO5 |
Design of elements like gears, belts and chain for given power rating. |
CO6 |
Design thickness of pressure vessel using thick and thin criteria. |
BTMEC - 604B IC Engines
CO1 |
Fundamentals of IC Engines. |
CO2 |
Fuel-Air cycles and deviation of actual cycles from ideal cycles. |
CO3 |
Combustion in S.I. Engines, flame speed, ignition delay, normal and abnormal combustion, effect of engine variables on flame propagation and ignition delay, Combustion in C.I |
CO4 |
Various Engine Systems, Various Engine Systems. |
CO5 |
Engine Testing and Performance of SI and CI Engines. |
CO6 |
Need for alternative fuels, applications, various alternate fuels etc,Fuel Cell Technology. |
BTMEC 603 - Applied Thermodynamics - II
CO1 |
To understand Applications, nomenclature, engine components, Engine classification, two and four stroke cycle engines; fundamental difference between SI and CI engines. |
CO2 |
Study and Analyze Starting systems, fuel supply systems, engine cooling system, ignition system, engine friction and lubrication systems, governing systems. |
CO3 |
Classify various types of Theoretical and actual cycle, use for P-h and T-s charts for problem solving, various effects on system performance. Refrigerants. |
CO4 |
Classify various types of IC engines. Introduction, classification and comparison with other types, types GTPP, advantages and disadvantages over other power plants. |
CO5 |
Air Conditioning & Refrigeration and air conditioning controls. |
CO6 |
Introduction, nuclear reactions, nuclear fuels, site selection, components of reactors, types of reactors, material requirement, effect of nuclear radiation, disposal of nuclear waste, safety requirement of nuclear power plant. |