B.TECH I YEAR-I SEMESTER (R22)
COMPUTER AIDED ENGINEERING GRAPHICS
CO1: Know the Standard conventions and construction of various Engineering curves.
CO2: Use Auto CAD commands and apply fundamentals of the theory of projections and draw orthographic projections of points and lines in any position.
CO3: Construct orthographic projections of simple planes and regular solids in any position through Auto CAD.
CO4: Draw sectional views and developments of various basic 3D objects through Auto CAD.
CO5: Construct isometric views and construct multi-view drawings of simple and complex 3D objects through Auto CAD.
ENGINEERING CHEMISTRY
CO1: Relate the basic properties of water and its usage for domestic and industrial purposes.
CO2: Summarize the basic knowledge of electrochemical procedures related to batteries and corrosion and its control.
CO3: Apply the fundamentals and general properties of polymers and other engineering materials.
CO4: Analyze real-time situations related fuel energy sources.
CO5: Predict potential applications of chemistry and the practical utility of engineering materials in order to become good engineers and entrepreneurs.
MATRICES AND CALCULUS
CO1: Find the rank of a matrix and solve a linear system of equations.
CO2: Evaluate eigenvalues, eigenvectors and diagonalize the given matrix.
CO3: Apply Mean value theorems to solve engineering problems and to evaluate improper integrals using Beta and Gamma functions.
CO4: Find the extremum of a multi-variate function with/without constraints.
CO5: Evaluate multiple integrals and apply the concept to find the areas and volumes.
ENGINEERING MATERIALS AND METALLURGY
CO1: Describe different materials and their crystal structures and correlate structure with properties.
CO2: Interpret the phase diagrams.
CO3:Express the importance of composition, properties, and applications of ferrous alloys and describe heat treatment processes.
CO4: Express the importance of composition, properties, and applications of non-ferrous alloys.
CO5: Express the importance of composition, properties, and applications of composites, ceramics, and polymers.
PROBLEM SOLVING THROUGH ‘C’
CO1: Understand programming concepts and analyze a problem, design a solution and develop an algorithm to solve it.
CO2: Modularize a problem and implement the solution using basic programming concepts, control statements and functions.
CO3: Evaluate the use of macros and implement solutions to complex problems using recursion and homogeneous data types.
CO4: Implement solution using pointers for problems of relevance and use different dynamic memory allocation methods.
CO5: Understand and analyze, differentiate and implement elementary algorithms of sorting, searching and will also be able to compare and contrast algorithms with respect to time and space complexity.
ENGLISH LANGUAGE AND COMMUNICATION SKILLS LAB
CO1: Comprehend and respond appropriately in various scenarios
CO2: Emerge as confident and competent communicators of the English Language
CO3: Apply pronunciation skills to evolve as proficient speakers
CO4: Analyze and compose effectively across various mediums
CO5: Develop critical and analytical thinking
Material Science and Metallurgy Lab
CO1: Explain the steps involved in the metallographic examination.
CO2: Understand the microstructure of pure metals like Fe, Cu, and Al.
CO3: Elucidate the microstructures of various steels.
CO4: Describe the microstructures of various Cast Irons.
CO5: Explain the microstructures of various Non-Ferrous alloys.
C PROGRAMMING LAB
CO1: Familiarize with Linux programming environment and translate given algorithms to a working and correct program.
CO2: Interpret syntax errors as reported by the compilers and to be able to identify and correct logical errors encountered at run time using debuggers like GDB.
CO3: Write iterative as well as recursive programs.
CO4: Represent data in arrays, pointers, strings and manipulate them through a program.
CO5: Apply Algorithm for solving problems like sorting, searching.
ENGINEERING CHEMISTRY LAB
CO1: Determine the parameters like the hardness of water, alkalinity, and rate of corrosion of mild steel
CO2: Estimate the acid concentration by conductometry.
CO3: Analyze instrumental techniques such as potentiometry and pH meter inorder to find out the concentrations or equivalence points.
CO4: Interpret molecular/system properties such as viscosity, and saponification value of coconut oil.
CO5: Apply analytical skills about colorimeter/polymer/Sanitizer.
B.TECH I YEAR-II SEMESTER (R22)
ENGINEERING MECHANICS – STATICS
CO1: Solve for the resultants of any force system and determine the equivalent force system.
CO2: Analyze the rigid body under equilibrium and determine the different forces acting on it.
CO3: Determine centroid and Centre of gravity for different composite areas and composite solid bodies.
CO4: Determine the area and mass moment of inertia of composite areas and composite solid bodies.
CO5: Solve the problems associated with frictional forces.
ENVIRONMENTAL SCIENCE
CO1: Define the concepts of Ecosystem.
CO2: Explain and enunciate the value of biodiversity and its conservation.
CO3: Discuss various natural resources and their importance, understand the advantages and disa disadvantages of renewable energy sources and technologies.
CO4: Develop awareness on pollution control technologies and global atmospheric changes.
CO5: Relate the importance of Environmental Impact Assessment and Environmental legislation in in in the management of the environment.
DATA STRUCTURES THROUGH ‘C’
CO1: Design and implement appropriate user-defined types to a given problem definition and apply various functions for processing files.
CO2: Understand basic concepts, Design and implement linear list data structures
CO3: Implement stack and queue data structures and their application.
CO4: Assimilate the terminology of trees and implement binary tree operations in C
CO5: Understand the representation of graph and traversal techniques
DIFFERENTIAL EQUATIONS AND VECTOR CALCULUS
CO1: Need to conduct a bridge course on differentiation and integration to understand the concepts of differential equations
CO2: Need to conduct remedial classes attaining CO’S
CO3: Need to conduct a bridge course on partial differentiation to understand the concepts of partial differential equations
CO4: Need to conduct a bridge course on vector algebra to understand the concepts of vector differentiation and integration
CO5: Need to conduct remedial classes attaining CO’S
APPLIED PHYSICS
CO1: Determine the wavelength of light by diffraction principle and learn methods to minimize the signal loss in optical fibers.
CO2: Understand the applications of the Photoelectric effect, develop skills to identify the type of semiconductors and determine charge carrier concentration in it using Hall effect.
CO3: Understand the applications of various semiconductor, and optoelectronic devices.
CO4: Gain knowledge of applications of dielectric materials and hysteresis behavior of magnetic materials.
CO5: Understands the concepts of resonance, charging and discharging of the capacitor, dispersion of light and carry out data analysis.
ENGLISH FOR SKILL ENHANCEMENT
CO1: Choose appropriate vocabulary and sentence structures for oral and written communication suitable to the context and culture.
CO2: Communicate effectively in various professional contexts through oral and written communication.
CO3: Comprehend, emphasize, conceptualize and evaluate the given texts and other authentic texts such as magazines, newspaper articles etc
CO4: Understand explicit and implicit meaning and draw inference from the given text.
CO5: Evaluate their language skills and soft skills to handle personal and professional challenges.
APPLIED PHYSICS LAB
CO1: Determine the wavelength of light by diffraction principle and learn methods to minimize the signal loss in optical fibers.
CO2: Understand the applications of the Photoelectric effect, develop skills to identify the type of semiconductors and determine charge carrier concentration in it using Hall effect.
CO3: Understand the applications of various semiconductor, and optoelectronic devices.
CO4: Gain knowledge of applications of dielectric materials and hysteresis behavior of magnetic materials.
CO5: Understands the concepts of resonance, charging and discharging of the capacitor, dispersion of light and carry out data analysis.
DATA STRUCTURES THROUGH ‘C’ LAB
CO1: Familiarize with Linux programming environment and translate given algorithms to a working and correct program.
CO2: Interpret syntax errors as reported by the compilers and to be able to identify and correct logical errors encountered at run time using debuggers like GDB.
CO3: Write iterative as well as recursive programs.
CO4: Represent data in arrays, pointers, strings and manipulate them through a program.
CO5: Apply Algorithm for solving problems like sorting, searching.
ENGLISH LANGUAGE AND COMMUNICATION SKILLS LAB
CO1: Comprehend and respond appropriately in various scenarios
CO2: Emerge as confident and competent communicators of the English Language
CO3: Apply pronunciation skills to evolve as proficient speakers
CO4: Analyze and compose effectively across various mediums
CO5: Develop critical and analytical thinking
PYTHON PROGRAMMING LAB
CO1: Design, code, and test Python modules.
CO2: Understand and use standard library modules.
CO3: Apply object-oriented concepts to solve problems.
CO4:Write Python solutions to solve statistical problems.
CO5: Use advanced Python programming concepts.
B.TECH II YEAR-I SEMESTER (R22)
THERMODYNAMICS
CO1: Explain the basics of Thermodynamics.
CO2: Apply first and second laws of thermodynamics to different systems
CO3: Define terms related to pure substances and can state perfect gas laws.
CO4: Apply the concept of mixture of perfect gases and can use Psychrometric chart.
CO5: Evaluate performance of power cycles and refrigeration cycles.
MANUFACTURING PROCESSES
CO1: Elaborate fundamentals of various molding, casting techniques & furnaces.
CO2: Describe the significance of bulk deformation processes in metal working.
CO3: Elaborate uniqueness of forging and sheet forming processes in metal working.
CO4: Identify importance of permanent joining and principle behind different welding processes.
CO5: Describe processing methods of plastics, powder metallurgy technique and realize the importance of RPT process.
ENGINEERING MECHANICS-DYNAMICS
CO1: Describe the physical interpretation of position, velocity and acceleration of a particle.
CO2: Analyze the particle motion in curvilinear motion.
CO3: Develop the fundamental equations to analyze the projectile motion of particle.
CO4: Select the suitable method for analyzing the particle motion.
CO5: Solve problems associated with power transmission.
PROBABILITY AND STATISTICS
CO1: Learn probabilistic models, random variables, probability distributions.
CO2: Understand the theory of estimation.
CO3: Apply the tools in Probability and Statistics in engineering
CO4: Take decisions using testing of hypothesis techniques
CO5: Learn differentiation and integration of complex functions.
BASICS OF ELECTRICAL AND INSTRUMENTATION ENGINEERING
CO1: Understand the basics of electrical devices.
CO2: Describe the basics of measurement and instrumentation.
CO3: Apply the transducers for measurement of displacement and temperature
CO4: Analyze the measurement of Pressure, flow and level
CO5: Describe the concepts of transducers for measurement of Speed, Acceleration, Strain and also explain the basics of control systems.
MANUFACTURING PROCESSES LAB
CO1: Analyzes the given problem and conducts investigation on the experimental setup
CO2: Uses modern tools for measurements/modeling and simulation/draw the graphs etc.
CO3: Understands the environmental impact of the investigation
CO4: Work individually and in a team for conducting the experiments
CO5: Effectively communicates and explains the experimental analysis
COMPUTER AIDED MACHINE DRAWING LAB
CO1: Acquire knowledge in drafting of machine components using conventional and CAD tools.
CO2: Recognizes the conventional representation of materials and various standard components.
CO3: Identifies the various types threads, keys and joints.
CO4: Illustrates the geometrical representations in orthographic and sectional views of missing components
CO5: Drafts the detailed assembly drawings of machine parts using conventions.
B.TECH II YEAR-II SEMESTER (R22)
IC ENGINES AND AIR COMPRESSORS
CO1: Elaborate the working principles of IC Engine systems and its classification.
CO2: Explore the combustion stages of SI and CI engines, and factors influence for better combustion
CO3: Evaluate the testing and performance parameters of IC engines.
CO4: Explain the function and working principles of single and multistage reciprocating air compressors
CO5: Explain the function and working principles of centrifugal and axial flow air compressors.
STRENGTH OF MATERIALS
CO1: Understand the concepts of stress at a point, strain at a point, and the stress-strain relationships for linear, elastic, homogeneous, isotropic materials.
CO2: Determine principal stresses and strains, maximum shearing stresses and strains, and the stresses acting on any arbitrary plane within a structural element.
CO3: Draw Shear Force, Bending Moment diagrams and determine the slope & deflections produced in beams subjected to various types of loading
CO4: Analyze and design the structural members subjected to bending and shearing stresses.
CO5: Solve torsion problems in circular bars and analyzes thick & thin cylinders in order to meet desired conditions and obtain solutions for column problems.
MACHINE TOOLS & METROLOGY
CO1: Explain metal cutting principles, types of lathes and lathe operations.
CO2: Elaborate working principle of drilling, boring, shaping, slotting and planning machines.
CO3: Describe the principle of working, operations performed on milling machine and elaborate the significance of surface finishing processes.
CO4: Explain the use of various measuring instruments and design of limit gauges.
CO5: Describe surface roughness measurement, screw thread measurement and explain the working of CMM.
KINEMATICS OF MACHINERY
CO1: Sketch inversions of fundamental mechanisms and write their applications.
CO2:Determine velocity and acceleration of various links of a mechanism by relative velocity method and instantaneous centre method.
CO3: Sketch straight line, approximate straight line and steering gear mechanisms and calculate
CO4: Draw cam profiles for various types of follower motion.
CO5: Calculate speed ratio of various gear drives and gear trains.
INTRODUCTION TO MACHINE LEARNING
CO1: Demonstrate basic machine learning approaches.
CO2: Apply various regression techniques to make good predictions.
CO3: Analyze the suitability of different clustering techniques
CO4: Apply ensemble techniques for performance tuning.
CO5: Apply the concept of neural networks for predictions.
STRENGTH OF MATERIALS LAB
CO1: Analyses the given problem and conducts investigation on the experimental setup.
CO2: Uses modern tools for measurements/modelling and simulation/draw the graphs etc.
CO3: Understands the environmental impact of the investigation
CO4: Works individually and in a team for conducting the experiments.
CO5: Effectively communicates and explains the experimental analysis.
MACHINE TOOLS AND METROLOGY LAB
CO1: Analyze the given problem and conduct investigation on the experimental setup
CO2: Use modern tools for measurements/modeling and simulation/draw the graphs etc.
CO3: Understand the environmental impact of the investigation
CO4: Work individually and in a team for conducting the experiments
CO5: Effectively communicate and explain the experimental analysis
B.TECH III YEAR-I SEMESTER (R22)
THERMAL ENGINEERING
CO1: Interpret the working cycle of steam power plant and working of different boilers with its applications and also combustion of fuels.
CO2: Analyze problems on steam power plant cycle, boiler draught, chimney height and can also on stem nozzles along with it application in steam power plant.
CO3: Explain the working of various steam turbines and analyze the impulse and reaction turbines with their velocity diagrams.
CO4: Explain the concepts of steam condensers and condensing plant working principle of gas turbine Plant.
CO5: Classify the jet propulsive engines and working principle of turbojets and rockets with its nozzle and analysis.
DYNAMICS OF MACHINERY
CO1: Assess the effect of Gyroscopic couple in a dynamic body such as aero plane,4-wheeler etc. and calculate coefficient of fluctuation of speed and coefficient of fluctuation of energy of a flywheel.
CO2:Perform static and dynamic analysis to attain equilibrium in mechanisms and synthesize mechanisms for motion, path and function generation.
CO3: Analyze friction clutches, brakes , dynamometer and Governors.
CO4: Determine balancing mass for rotating and reciprocating mass systems.
CO5: Perform analysis of the response of one degree freedom system with free and forced vibrations and evaluate the critical speed of shaft and solve torsional vibration problems.
MECHANICS OF FLUIDS & HYDRAULIC MACHINERY
CO1: Defines the concepts of fluid statics and articulate the principles of flow measuring devices.
CO2: Analyses the fluid flow using the concepts of kinematics (Continuity eqn.) and dynamics (momentum eqn.) and measurement of flow using various flow meters.
CO3: Computes losses in closed conduit flow and understands the concepts of boundary layer.
CO4: Applies the concept of the impact of jets on hydraulic turbines.
CO5: Identifies the type of pump used for specific applications and parameters of hydraulic pumps.
DESIGN OF MACHINE ELEMENTS
CO1: Apply fundamental design practices regarding material selection, material properties, manufacturing considerations, and standards and codes
CO2: Apply stress analysis theory, fatigue theory and appropriate criteria of failure to the design of machine elements.
CO3: Design and analyze the temporary joints (bolted joints) and permanent joints (riveted and welded joints) under various load conditions.
CO4: Analyze and design solid and hollow shafts under various load conditions.
CO5: Design and analyze helical springs and multi-leaf springs under various load conditions.
Industrial Engineering and Statistical Quality Control
CO1:Describe the industrial processes based on work-study and value engineering analysis methodologies.
CO2: Apply various quality control charts for variables and attributes.
CO3: Assess and control the process capability using Cp and Cpk techniques.
CO4: Construct OC curve for acceptance sampling.
CO5: Design quality management practices as per the ISO-9000 guidelines.
MECHANICS OF FLUID AND HYDRAULIC MACHINES LAB
CO1: Analyzes the given problem and conducts investigation on the experimental setup.
CO2: Uses modern tools for measurements/modeling and simulation/draw the graphs etc.
CO3: Understands the environmental impact of the investigation.
CO4: Works individually and in a team for conducting the experiments.
CO5: Effectively communicates and explains the experimental analysis.
PRODUCTION DRAWING PRACTICE THROUGH AUTO CAD LAB
CO1: Draw and identify the conventions used in production drawing practices.
CO2: Calculate limits and tolerances and identify type of fit between the mating parts of an assembly.
CO3: Calculate and specify geometrical form and positional tolerance.
CO4: Draw production drawings of the component and process sheets from the given assembly drawing.
CO5: Model the components and assembly drawings using AUTO-CAD software by specifying geometrical dimensions and tolerance.
B.TECH III YEAR-II SEMESTER (R22)
MACHINE DESIGN
CO1: Determine the basic lubrication mode in bearings, load in ball and roller bearings and its selection procedure based on manufacturer’s catalogue data.
CO2: Demonstrate the ability to apply the fundamentals of force and stress analysis in the design of various components to successfully satisfy the function of IC engine
CO3: Design a power transmission system through belt, rope, and chain drive to meet desired needs in engineering applications.
CO4: Analyze and evaluate the forces and stresses in various gear systems.
CO5: Design the power screw for transmission applications.
HEAT TRANSFER
CO1: Identify the mode of heat transfer and formulate the equation to calculate temperature distribution during conduction heat transfer.
CO2: Compute the amount of heat dissipation by using extended surfaces and during transient heat conduction.
CO3: Calculate the rate of heat transfer by convection in the boundary/potential flow regions
CO4: Identify the heat exchanger required to transfer sensible/latent heat between two fluids
CO5: Interpret the concepts of radiation heat transfer between two bodies.
CAD/CAM
CO1: Explain structure and units of a digital computer and its related hardware
CO2: Describe the role of computer graphics especially geometric transformations for CAD/CAM application.
CO3: Describe the basic NC system and write part programming in CNC system
CO4: To apply group technology for computer integrated manufacturing and perform computer aided process planning.
CO5: Identify different quality control methods and CIM systems and apply inspection methods used in various manufacturing systems.
BUSINESS ECONOMICS AND FINANCIAL ANALYSIS
CO1: Understand the concepts of micro and macro economics
CO2: Analyze demand and forecast demand
CO3: Evaluate markets and formulate competitive strategies
CO4: Prepare financial statements
CO5: Evaluate the financial strengths and weaknesses of a business by using ratio analysis
UNCONVENTIONAL MACHINING PROCESSES
CO1: Explain the need of unconventional machining processes and the principle of ultrasonic machining process.
CO2: Elaborate the working principles of abrasive jet, water jet, abrasive-water jet, chemical and electrochemical machining processes.
CO3: Describe the fundamental concepts of electric discharge machining process.
CO4: Narrate the elements of electron beam and laser beam machining processes.
CO5: Explicate the basics of plasma arc machining and abrasive finishing processes.
NON-CONVENTIONAL SOURCES OF ENERGY
CO1: Describe the basics of NCSE and technical concepts of the solar radiation.
CO2: Identify various types of solar collectors, Energy storage methods and Application.
CO3: Identify the sources of Biomass and Geothermal Energy and their applications.
CO4: Describe the energy conversion from wind energy and ocean energy to thermal energy.
CO5: Illustrate Principles and applications of MHD generators and Fuel cells.
APPLIED OPERATIONS RESEARCH
CO1: Explain the importance and value of Operations Research and Mathematical Modeling in solving practical problems in industry.
CO2: Formulate a managerial decision problem into a mathematical model.
CO3: Apply Operation research models to real-life problems.
CO4: Use computer tools to solve a mathematical model for a practical problem.
CO5: Explain various Inventory models.
HUMAN MACHINE INTERFACE
CO1: Describe the applications of HMI’s in various domains & differentiate various communication protocols used in HMI Development.
CO2: Understand HMI architecture and various tools used for HMI development for automobile application.
CO3: Implement real time automotive applications using graphical tools.
CO4: Compare the UX & UI Concepts for different application.
CO5: Examine game development, 3D development, and HMI testing, validation for the developed system.
HEAT TRANSFER LAB
CO1: Analyses the given problem and conducts investigation on the experimental setup.
CO2: Uses modern tools for measurements/modeling and simulation/draw the graphs etc.,
CO3: Understands the environmental impact of the investigation.
CO4: Works individually and in a team for conducting the experiments.
CO5: Effectively communicates and explains the experimental analysis.
MODELLING, MANUFACTURING SIMULATION &CNC LAB
CO1: Analyse the given problem and conduct investigation on the experimental setup.
CO2: Use modern tools for measurement/modelling and simulation/draw the graphs etc.,
CO3: Understand the environmental impact of the investigation.
CO4: Works individually and in a team for conducting the experiments.
CO5: Effectively communicates and explains the experimental analysis.
B.TECH IV YEAR-I SEMESTER (R22)
REFRIGERATION AND AIRCONDITIONING
CO1: Study the concepts and methods of refrigeration systems and evaluate the performance of air refrigeration cycles for aircraft applications.
CO2: Evaluate the performance of Vapour compression refrigeration systems.
CO3: Explain the working of various Vapour absorption, non-conventional refrigeration systems and summarize the effects of refrigerants on Global Warming and ozone depletion
CO4: Describe Psychrometric properties, processes, and Air conditioning requirement.
CO5: Evaluate load calculations for air conditioning and describe the working of various equipment and systems
FINITE ELEMENT METHODS & ANALYSIS
CO1: Apply the concepts of FEM for solving 1D bar problem by formulating finite element equations.
CO2: Investigate the trusses in 2D and perform analysis by forming stiffness equations.
CO3: Formulate FE characteristic equations for two dimensional elements and analyze plain stress, plain strain conditions.
CO4: Analyze composite walls and fins subjected to steady state heat transfer using principles of FEM.
CO5: Implement and solve dynamic analysis problems of bars and beams by FEM formulations
COMPOSITE MATERIALS
CO1: Describe the different types of composites and write their applications.
CO2: Explain various types of reinforcements and choose appropriate reinforcement for a specific application.
CO3: Describe the manufacturing methods of polymer matrix composites.
CO4: Describe fabrication methods of metal matrix and ceramic matrix composites.
CO5: Analyze the different types of laminated composites.
AUTOMOBILE ENGINEERING
CO1: Explain the transmission drive types, servicing of engine and fuel supply system of S.I and C.I engine.
CO2: Understand the working of Ignition system, cooling and Electrical system of an automobile system.
CO3: Explain the working of the different transmission and suspension systems of automobile.
CO4: Explain the working of steering and braking systems.
CO5: Understand the concept of Pollution its control and Energy Alternatives for IC Engines.
INDUSTRIAL ROBOTICS
CO1: Recognize various components of Robot, specification of Robot & Asimov’s laws of Robot.
CO2: Design proper actuator to the Robot joints and proper end effectors
CO3: Find the coordinates of end- effector location with respect to the base of Robot.
CO4: Find the joint velocity force, torque required to move joint.
CO5: Selection of Robot with sensors for specific task in manufacturing and service industries.
PRODUCTION PLANNING AND CONTROL
CO1: Apply the concept of PPC, inventory &MRP, ERP, LOB system.
CO2: Explain forecasting techniques.
CO3: Describe various scheduling techniques.
CO4: Apply routing & dispatching techniques to the production control and management system.
CO5: Describe the importance of plant layouts and select a suitable layout to the production system.
AUTOMATION IN MANUFACTURING
CO1: Describe the importance of Automation implementation in Manufacturing.
CO2: Analyze the various Automated flow lines.
CO3: Perform Line balancing of assembly system.
CO4: Describe automated Material Handling and automated storage.
CO5: Explain Industrial Process controls and automatic inspection.
POWER PLANT ENGINEERING
CO1: Explain the working of steam power plant and its components.
CO2: Describe the working of diesel power plants and their components, gas turbine plants and their components.
CO3: Explain the working of hydroelectric power plant and elaborate typical layouts of hydro projects and plants.
CO4: Interpret different types of reactors used in nuclear power plants.
CO5: Define load factor, demand factor and methods of pollution control and plant selection, make a load duration curve.
TRIBOLOGY
CO1: Apply principles of lubrication, lubrication regimes, bearing materials, lubricant properties, and lubrication modes in bearing applications.
CO2: Apply theoretical and practical knowledge of hydrodynamic, elasto-hydrodynamic, and mixed/ boundary lubrication in journal bearings.
CO3: Identify friction characteristics in journal bearings and methods to reduce friction and wear.
CO4: Explain Air lubricated bearings.
CO5: Apply knowledge in use of bearing materials and bearing oil pads and oil rings in different bearings.
DIGITAL MANUFACTURING
CO1: Analyze the importance of digital manufacturing in industries.
CO2: Recognize the role of industrial data management in modern industries.
CO3: Analyze the building blocks of smart industries.
CO4: Analyze the elements of precision engineering.
CO5: Analyze the elements of precision engineering.
ADDITIVE MANUFACTURING TECHNOLOGY
CO1: Describe the RP systems and Stereo Lithography systems.
CO2: Elaborate Selective laser sintering and Fusion deposition modeling.
CO3: Describe Solid ground curing and concepts modelers.
CO4: Explain Rapid tooling and differentiate various software’s associated with RP.
CO5: Perform process optimization of Rapid manufacturing process and explain allied processes.
JET PROPULSION & ROCKET ENGINEERING
CO1: Interpret the concepts of gas turbine and jet propulsion in rocket engines.
CO2: Infer the Turboprop and Turbojet engine Technology.
CO3: Analyze the working of Ram jet and Scram jet engines and compute their performance.
CO4: Identify the Rocket Essential components and Various Propulsion systems.
CO5: Analyze and apply the Rocket Technology and Cooling systems.
DESIGN FOR MANUFACTURING & ASSEMBLY
CO1: Explain the general rules for designing of a component for economical production.
CO2: Describe the design considerations and applying them for improving ease of casting and metal joining.
CO3: Analyze the design modifications for improving ease of forging and machining.
CO4: Describe the design guide lines for press working, extrusion & plastics molding.
CO5: Analyze the general design guidelines for improving ease of assembly.
MECHATRONICS
CO1: Appreciate the importance of Mechatronics in mechanical engineering field and explain various signal conditioning devices.
CO2: Explore various Precession mechanical systems and electronic interface subsystems.
CO3: Applyelectromechanicaldrivesinvariousfieldsofmechanicalengineering
CO4: Describe PLC & Microcontrollers and apply in various fields of mechanical engineering.
CO5: Explore various Programmable motion controllers
COMPUTER AIDED ENGINEERING ANALYSIS LAB
CO1: Analyze the given problem and conduct investigation on the experimental setup
CO2: Use modern tools for measurement/modelling and simulation/draw the graphs etc.,
CO3: Understand the environmental impact of the investigation.
CO4: Works individually and in a team for conducting the experiments.
CO5: Effectively communicates and explains the experimental analysis.
B.TECH IV YEAR-II SEMESTER (R22)
INDUSTRIAL MANAGEMENT
CO1: To elaborate concepts of management and describe organizational structures.
CO2: Identify management strategies for effective and efficient utilization of resources.
CO3: Explore the effective project completion technique in the dynamic industrial environment.
CO4: Perform SWOT analysis of the internal and external environment.
CO5: Implement contemporary best practices in industrial organization.
CNC TECHNOLOGY
CO1: Explain the need of CNC machines and its applications in the field of manufacturing.
CO2: Describe the features of system devices used in CNC Machines.
CO3: Describe tooling system for CNC machines.
CO4: Develop manual and APT programming for various complex geometries using CAD/CAM software.
CO5: Describe and use DNC system and adaptive control in the field of advanced manufacturing.
ELECTRIC AND HYBRID VEHICLES
CO1: Explain electric, hybrid electric and plug-in hybrid electric vehicle (PHEV), their architecture, technologies and fundamentals
CO2: Explain hybrid electric drive and electric drive trains and power flow control.
CO3: Explain power electronic circuits and motor drives.
CO4: Discuss different energy storage technologies used for hybrid electric vehicles and their control and energy balancing techniques.
CO5: Discuss different charging technologies and strategies of energy management.
TOOL DESIGN
CO1: Select suitable press tool operation for given sheet metal component.
CO2: Select and use appropriate clamping device for given workpiece situation.
CO3: Select suitable plastic molding process for a plastic component.
CO4: Analyze the importance of forging operations.
CO5: Select suitable process parameters to perform diecasting.
PROCESS PLANNING & COST ESTIMATION
CO1: Describe the importance of process planning
CO2: Select the suitable process planning method for a product
CO3: Perform cost estimation of a product.
CO4: Estimate machining time for a machining operation.
CO5: Evaluate overall cost of production of a product.
ROBOTICS AND AUTOMATION
CO1: Classify different types of robots and describe parts of robot.
CO2: Explain various power actuators, sensors and gripper
CO3: Analyse kinematics and dynamics of robots.
CO4: Explain various manipulator control and perform trajectory planning.
CO5: Appreciate the applications of robot in manufacturing and service sector.