LESSON PLAN NAME OF FACULTY: MR. SUMIT …18th Definition of pipe flow, wetted perimeter, hydraulic mean depth, hydraulic gradient; loss of head due to friction 19th Chezy’s equation

NAME OF FACULTY: MR. SUMIT KUMARDISCIPLINE : MECHANICAL ENGGSEMESTER : 4THSUBJECT : HYDRAULIC AND PNEUMATICLESSON PLAN DURATION : 15 WEEKSWORK LOAD (LECTURE/ PRACTICAL) : LECTURES -03 , PRACTICALS -02

LECTURE DAY

TOPIC

1st 1. Introduction- Fluid, types of fluid2nd properties of fluid viz mass density, weight density (specific

weight)

3rd specific volume, capillarity, specific gravity, viscosity, compressibility

4th surface tension, kinematic viscosity and dynamic viscosity and their units

5th 2. Pressure and its Measurement - Concept of pressure (Atmospheric 6th Pascal’s Law, Static Pressure7th Pressure measuring devices: peizometer tube manometers - simple U-

tube,8th differential single column inverted U-tube, micromanometer including

simple problems

9th Bourdon pressure gauge, Diaphragm pressure gauge, dead weight 10th Test-111th 3. Flow of Fluids , Types of fluid flow – steady and unsteady, uniform

and non-uniform

12th Laminar flow and turbulent; rate of flow and their units13th continuity equation of flow; potential energy of a flowing fluid; total 14th Bernoulli’s theorem (statement and proof) and its applications15th Discharge measurement with the help of venturi-meter, orifice meter,

16th pitot-tube, limitations of Bernoulli’s theorem simple problems.

17th Assignment -1 Numericals18th Definition of pipe flow, wetted perimeter, hydraulic mean depth,

hydraulic gradient; loss of head due to friction19th Chezy’s equation and Darcy’s equation of head loss (without proof),

Reynold’s number and its effect on pipe friction; siphon

2nd

3rd

5th

4th

LESSON PLAN

WEEK THEORY

1st

6th

7th

20th Nozzle - definition, velocity of liquid flowing through the nozzle, power developed

21th Water hammer, anchor block, syphon, surge tank (concept only).22th Loss of head in pipes due to sudden enlargement, sudden

contractionobstruction on flow path, change of direction and pipe fittings (without proof

23th obstruction on flow path, change of direction and pipe fittings (without proof

24th Assignment -2 , Major and minor lossess25th Cc, Cv, Cd, flow through drowned partially drowned orifices26th time for emptying a tank through a circular orifice. Simple problems

27th 4. Hydraulic Machines Description, operation and application of hydraulic systems hydraulic ram, hydraulic jack, hydraulic brake hydraulic accumulator, hydraulic door closer

28th hydraulic press, selection of specification of above systems for different applications

29th Test-230th 5. Pumps And Turbine:- Concept of a turbine, types of turbines

31th impulse and reaction type (concept only), difference between them

32th Construction and working of pelton wheel, Francis turbine, Propeller and Kaplan turbines

33th Unit speed, unit power, unit discharge, specific speed of turbines, 34th Assignment-3 , Diagram of all hydraulic turbine35th Concept of hydraulic pump, single acting reciprocating pump

(construction and operation only)36th vane, screw and gear pumps Construction, working and operation of

centrigual pump37th Performance, efficiencies and specifications of a centrifugal pump.38th Trouble shooting and problems in centrifugal pumps and remedial

measures, pitting, cavitation, priming39th 6. Oil power Hydraulic and Pneumatic systems - Introduction to oil

power hydraulics and pneumatic system. Relative Merits and Demerits as oil power hydraulic and pneumatic system

40th Industrial applications of oil power hydraulic and pneumatic system

41th Basic components of hydraulic system, definition and functions of each component in a hydraulic circuit. Hydraulic oils- Classification and their properties. Seals and packing- classification of seals, sealing materials.

42th Maintenance of hydraulic system: common faults in hydraulicsystem, simple visual checks of oil, causes of contamination,preventive measures

8th

10th

9th

12th

11th

14th

13th

43th Basic Components of Pneumatic Systems , definition and functions of each component in a Pneumatic circuit. Necessity of Filter, Regulator and Regulator(FLR

44th 6.6 Common problems in pneumatic systems. Maintenance schedule of pneumatic systems

45th Test- 3

15th

PRACTICAL DAY TOPIC

2nd Measurement of pressure head by employing.ii) Simple U-tube manometer

3rd Measurement of pressure head by employing.iii) Bourdon.s tube pressure gauge

4TH Verification of Bernoulli’s theorem

5th Measurement of flow by using venturimeter

LESSON PLAN

PRACTICAL

1st Measurement of pressure head by employing.i) Piezometer tube

6th To find out the value of coefficient of discharge for a venturimeter

7th To find coefficient of friction for a pipe (Darcy’s equation).

8th To study a single stage centrifugal pump and reciprocating pump for constructional details with the help of cut section

models.

9th Study the working of Pelton wheel, Francis and Kaplan turbine with the help of working model.

10th Study of hydraulic circuit of any available machine or working model

11th Study of pneumatic circuit of any available machine or working model

NAME OF FACULTY : MR. UMESH PEHAL

DISCIPLINE : MECHANICAL ENGG

SEMESTER : 4TH

SUBJECT : INDUSTRIAL ENGINEERING

LESSON PLAN DURATION : 15 WEEKS

WORK LOAD (LECTURE/ PRACTICAL) : LECTURES -04

LECTURE DAY TOPIC

1st 1. Productivity

2nd Introduction to productivity

3rd factors affecting productivity

4th Measurement of productivity

5th causes of low productivity

6th methods to improve productivity

7th Assignment- 1

8th 2. Work Study

9th Definition

10th scope of work study

11th Inter-relation between method study and work measurement

12th Human aspects of work study

13th Role of work study in improving productivity.

14th Assignment- 2

15th Block diagram of work study

16th TEST-1

17th 3. Method Study

18th Objectives

19th procedure for Method analysis

20th Information collection

21th recording techniques

22th 4. Motion Analysis

LESSON PLAN

WEEK THEORY

1st

2nd

3rd

4th

5th

6th

23th Principles of Motion analysis

24th Therbligs

25th SIMO charts

26th Normal work area

27th design of work places

28th ergonomics

29th TEST-2

30th 5. Work Measurement

31th Objectives

32th work measurement techniques

33th stop watch time study;

34th principle, equipment used and procedure

35th systems of performance rating;

36th calculation of basic times;

37th various allowances;

38th calculation of standard time

39th work sampling, standard data and its usage.

40th ASSIGNMENT-3

41th 6. Wages and Incentive Schemes

42th Introduction to wages, Wage payment for direct and indirect labour

43th wage payment plans and incentives,

44th various incentive plans, incentives for indirect labour.

45th 7. Production Planning and Control

46th Introduction, objectives and components (functions) of P.P.C,

47th Advantages of production planning and Production Control, stages of P.P.C

48th process planning, routing, scheduling, dispatching and follow up,

49th routing purpose, route sheets, scheduling – purpose, machine loading chart50th Gantt chart, dispatching – purpose, and procedure, follow up –purpose and procedure

51th CPM/PERT technique, drawing of simple networks

52th critical time calculation

8th

7th

9th

10th

11th

12th

13th

53th Production Control in job order, batch type and continuous type of productions

54th Difference between these controls

55th 8. Estimating and Costing - Introduction, purpose/functions of estimating

56th costing concept, ladder and elements of cost

57th difference between estimation and costing

58th Overheads and their types, estimation of material cost

59th estimation of cost for machining processes, numerical problems.

60th TEST-3

15th

14th

NAME OF FACULTY : MR. PradeepDISCIPLINE : MECHANICAL ENGGSEMESTER : 4THSUBJECT : SOMLESSON PLAN DURATION

: 15 WEEKS

WORK LOAD (LECTURE/ PRACTICAL)

: LECTURES -03 , PRACTICALS -02

LECTURE DAY TOPIC PRACTICAL DAY TOPIC

1stStresses and Strains

2nd

1.1. Basic concept of load, stress and strain 1.2. Tensile, compressive and shear stresses

3rd1.3. Linear strain, Lateral strain, Shear strain, Volumetric strain.

4th

1.4 Concept of Elasticity, Elastic limit and limit of proportionality 1.5 Hook’s Law and Elastic Constants

5th

1.6. Stress-strain curve for ductile and brittle materials 1.7 Nominal stress

6th1.8 Yield point, plastic stage

2nd

LESSON PLAN

WEEK THEORY PRACTICAL

1st 1. Tensile test on bars of Mild steel and Aluminium.

1. Tensile test on bars of Mild steel and Aluminium.

7th

1.9 Ultimate stress and breaking stress

8th1.10 Percentage elongation 1.11 Proof stress and working stress

9th1.12. Factor of safety 1.13 Poisson’s Ratio

10th1.14 Thermal stress and strain

11th

1.15 Longitudinal and circumferential stresses in seamless thin walled cylindrical shells.

12th

Resilience 2.1 Strain Energy, Resilience, proof resilience and modulus of resilience

13th

2.2 Strain energy due to direct stresses and Shear Stress

14th2.3 Stresses due to gradual, sudden and falling load.

15th

Moment of Inertia

3rd

4th

5th

2. Bending tests on a steel bar or a wooden beam.

3. Impact test on metalsa) Izod test

b) Charpy test

16th

3.1. Concept of moment of inertia and second moment of area 3.2 Radius of gyration

17th

3.3 Theorem of perpendicular axis and parallel axis (with derivation)

18th3.4 Second moment of area of common geometrical sections : Rectangle, Triangle, Circle (without derivation); Second moment of area

19th 3.5 Section modulus Test-2 and Assignment-2

20thBending Moment and Shearing Force

21th4.1 Concept of various types of beams and form of loading

22th4.2 Concept of end supports-Roller, hinged and fixed

23th4.3 Concept of bending moment and shearing force

24th

4.4 B.M. and S.F. Diagram for cantilever and simply supported beams with and without overhang subjected to concentrated and U.D.L.

25thBending stresses 5.1 Concept of Bending stresses

4. Torsion test of solid specimen of circular section of different metals for determining modulus of rigidity.

5. To plot a graph between load and extension and to determine the stiffness of a helical spring.

6th

7th

8th

26th5.2. Theory of simple bending, Derivation of Bending Equation

27th

5.3. Use of the equation 5.4. Concept of moment of resistance

28th 5.5. Bending stress diagram

29th

5.6 Section modulus for rectangular, circular and symmetrical I section.

30th

5.7. Calculation of maximum bending stress in beams of rectangular, circular, and T section.

31th

Columns 6.1. Concept of column, modes of failure

32th

6.2. Types of columns, modes of failure of columns 6.3. Buckling load, crushing load

33th

6.4. Slenderness ratio 6.5. Effective length

34th

6.6 End restraints 6.7 Factors effecting strength of a column

6. Hardness test on different metals.

Revision11th

9th

10th

35th

6.8 Strength of column by Euler Formula without derivation

36th

6.9. Rankine Gourdan formula ( without derivation)

37thTorsion7.1. Concept of torsion, difference between torque and torsion.

38th

7.2. Derivation of Torsion Equation, use of torsion equation for circular shaft, (solid and hollow)

39th

7.3. Comparison between solid and hollow shaft with regard to their strength and weight.

40th7.4. Power transmitted by shaft

41th7.5 Concept of mean and maximum torque

42th

8. Springs 8.1. Closed coil helical springs subjected to axial load and calculation of:

Revision

Revision

12th

13th

14th

43thStress deformationStiffness and angle of twist and strain energy

44thStrain energy and proof resilience.

45th

8.2. Determination of number of plates of laminated spring (semi elliptical type only

Revision15th

NAME OF FACULTY : MR. Pradeep

DISCIPLINE : MECHANICAL ENGG

SEMESTER : 4tH

SUBJECT : Thermodynamics -1LESSON PLAN DURATION : : 15 WEEKS

WORK LOAD (LECTURE/ PRACTICAL)

: LECTURES -03 , PRACTICALS -02

LECTURE DAY

TOPICPRACTICAL DAY

TOPIC

1st Fundamental Concept :Thermodynamic state and system, boundary, surrounding, universe, thermodynamic systems – closed, open, isolated,

2nd adiabatic, homogeneous and heterogeneous, macroscopic and microscopic, properties of system – intensive and extensive,

3rd thermodynamic equilibrium, quasi – static process, reversible and irreversible processes, Zeroth law of thermodynamics,

4th definition of properties like pressure, volume, temperature, enthalpy and internal energy

LESSON PLAN

WEEK THEORY PRACTICAL

1st Determination of temperature by Thermocouple

5th Laws of Perfect Gases :Definition of gases, explanation of perfect gas laws – Boyle’s law, Charle’s law, Avagadro’s law, Regnault’s law,

6th Universal gas constant, Characteristic gas constants and its derivation.

7th Specific heat at constant pressure, specific heat at constant volume of a gas, derivation of an expression for specific heats with characteristics,

8th simple numerical problems on gas equationTest-1 and Assignment-1

9th Thermodynamic Processes :Types of thermodynamic processes – isochoric, isobaric,

10th isothermal, adiabatic, isentropic

11th polytropic and throttling processes, equations representing the processes

12th Derivation of work done,change in internal energy, change in entropy,

13th rate of heat transfer for the above processes

14th Laws of Thermodynamics :Laws of conservation of energy, first law of thermodynamics (Joule’s experiment) and its limitations

2nd

3rd

4th

5th

Determination of temperature by Pyrometer, Infrared thermometer

Demonstration of mountings and accessories on a boiler.

3. Study the working of Lancashire boiler and Nestler boiler.

4.Study of working of high pressure boiler.

15th Application of first law of thermodynamics to Non-flow systems – Constant volume, Constant pressure, .

16th Adiabatic and polytropic processes,

17th steady flow energy equation

18th Application of steady flow energy equation for turbines,

19th pump, boilers, compressors, nozzles, and evaporators

20th Heat source and sink, statements of second laws of thermodynamics: Kelvin Planck’s statement,.

21th Classius statement, equivalency of statements,

22th Perpetual motion Machine of first kind, second kind,

23th Carnot engine, Introduction of third law of thermodynamics,

24th concept of irreversibility and concept of entropy, Test-2 and Assignment-2

25th Ideal and Real Gases :Concept of ideal gas

26th enthalpy and specific heat capacities of an ideal gas

5. Study of boilers (Through industrial visit)

6. Determination of Dryness fraction of steam using calorimeter.

6th

7th

8th

9th

27th P – V – T surface of an ideal gas, triple point,

28th real gases, Vander-Wall’s equation

29th Properties of Steam :Formation of steam and related terms,

30th thermodynamic properties of steam, steam tables, sensible heat, latent heat,

31th internal energy of steam, entropy of water, entropy of steam, T- S diagrams, Mollier diagram (H – S Chart), Expansion of steam, ,

32th Hyperbolic, reversible adiabatic and throttling processes, determination of quality of steam (dryness fraction)

33th Steam Generators :Uses of steam, classification of boilers, function of various boiler mounting and accessories,

34th comparison of fire tube and water tube boilers.

35th Construction and working of Lancashire boiler,

36th Nestler boiler, Babcock & Wilcox Boiler.

37th Introduction to modern boilersAir Standard Cycles Meaning of air standard cycle – its use, condition of reversibility of a cycle38th Description of Carnot cycle, Otto cycle, Diesel cycle, simple problems on efficiency for different cycles.

7. Demonstrate the working of air compressor

Revision

Revision

10th

11th

12th

39th Comparison of Otto, Diesel cycles for same compression ratio, same peak pressure developed and same heat input.

40th Reasons for highest efficiency of Carnot cycle and all other cycles working between same temperature limits

41th Air Compressors :Functions of air compressor – uses of compressed air, type of air compressors

42th Functions of air compressor – uses of compressed air, type of air compressors

43th Single stage reciprocating air compressor, its construction and working, representation of processes involved on P – V diagram, calculation of work done.

44th Multistage compressors – advantages over single stage compressors, use of air cooler, condition of minimum work in two stage compressor (without

45th Rotary compressors – types, working and construction of centrifugal compressor, axial flow compressor, vane type compressor Test-3 and Assignment-3

Revision

Revision

13th

14th

15th

LESSON PLANNAME OF FACULTY : MR. CHETANDISCIPLINE : MECHANICAL ENGGSEMESTER : 4TH SUBJECT : WORKSHOP TECHNOLOGY-IILESSON PLAN DURATION : 15 WEEKSWORK LOAD (LECTURE/ PRACTICAL) : LECTURES -03

LECTURE DAY TOPIC1st 1. Cutting Tools and Cutting Materials2nd Cutting Tools - Various types of single point cutting tools and their uses,

Single point cutting tool geometry, tool signature and its effect3rd Heat produced during cutting and its effect, Cutting speed, feed and depth of cut

and their effect4th Cutting Tool Materials - Properties of cutting tool material, Study of various cutting tool materials

viz5th High-speed steel, tungsten carbide, cobalt steel cemented carbides, stellite, ceramics and

diamond.6th Assignment -1 properties of cutting tool materials7th 2. Lathe - Principle of turning , Function of various parts of a lathe8th Classification and specification of various types of lathe Work holding devices9th Lathe tools and operations :- Plain and step turning, facing, parting off,

taper turning, eccentric turning, drilling, reaming, boring, threading andknurling, form turning, spinning

10th Cutting parameters – Speed, feed and depth of cut for various materials andfor various operations, machining time

11th Speed ratio, preferred numbers of speed selection. Introduction to capstan and turret lathe

12th Lathe accessories:- Centers, dogs, different types of chucks, collets, face plate, angle plate, mandrel, steady rest, follower rest, taper turning attachment, tool post grinder, milling attachment, Quick change device for tools.

WEEK THEORY

1st

2nd

3rd

4th

14th 3. Drilling - Principle of drilling. Classification of drilling machines and their description

15th Various operation performed on drilling machine – drilling, spot facing,reaming, boring, counter boring, counter sinking, hole milling, tapping.

16th Speeds and feeds during drilling,impact of these parameters on drilling, machining time.

17th Types of drills and their features, nomenclature of a drill18th Drill holding devices.19th 4.Boring20th

Principle of boring21th Classification of boring machines22th Boring tools, boring bars and boring heads23th 5. Shaping, Planing and Slotting24th Working principle of shaper, planer and slotter25th Type of shapers , Type of planers26th Types of tools used and their geometry27th Speeds and feeds in above processes.28th Assignment - 2 shaper and planer29th 6.BROACHING - Introduction30th Types of broaching machines31th Single ram and duplex ram horizontal type32th vertical type pull up, pull down, push down.33th Elements of broach tool34th broach tooth details35th nomenclature36th Types, and tool material37th TEST - 238th 7. Jigs and Fixtures - importance39th use of jigs and fixture40th Principle of location

9th

10th

11th

12th

13th

14th

8th

5th

6th

7th

41th Locating devices42th Advantages of jigs and fixtures43th Clamping devices44th Assignment -3 , jig and fixture45th TEST- 3

15th

14

NAME OF FACULTY : MR. PRADEEPDISCIPLINE : MECHANICAL ENGGSEMESTER : 6THSUBJECT : AUTOMOBILE ENGGLESSON PLAN DURATION : 15 WEEKSWORK LOAD (LECTURE/ PRACTICAL) : LECTURES -03 , PRACTICALS -02

LECTURE DAY

TOPIC PRACTICAL DAY

TOPIC

1st 1. Introduction2nd Automobile and its development3rd Various types of automobiles manufactured in India4th Layout of chassis5th ASSIGNMENT-16th 2. Power System7th Fuel systems for petrol and diesel engines including multi point

fuelinjection (MPFI)

8th common rail direct injection (CRDI)9th Fuel injectors and nozzles10th Comparison of MPFI with carburetor system11th Concept of double overhead cam, single overhead cam, Twin

cam 16valve technology in 4 cylinder engine.

12th TEST-113th 3. Transmission System14th Clutch - Function, Constructional details of single plate and

multiplate friction clutches,

15th Centrifugal and semi centrifugal clutch, Hydraulic clutch

2nd

3rd

4THDemonstration of (i) rear axle (ii) differential

(iii) steering system

5thFault finding practices on an automobile - four

wheelers (petrol/ diesel vehicles).

LESSON PLAN

WEEK THEORY PRACTICAL

1st

2nd

3rd

4th

5th

1st

Demonstration of (i) AC Pump (ii) SU Pump (iii) Master Cylinders

Fault and their remedies in (i) Battery Ignition system (ii) magnetic Ignition

system.

Demonstration of (i) Head Light Model (ii) Wiper and Indicators.

16th Gear Box - Function, Concept of sliding mesh, constant mesh and synchromesh gear box, Torque converter and overdrive,

17th Types of drives – Front wheel, Rear wheel, Four Wheel. Function of Propeller shaft, Universal joint, Differential and Different types of Rear axles and Front Axles.

18th Wheels and Tyres - Types of wheels, Types and specifications of tyres used in Indian vehicles, Wheel balancing

19th ASSIGNMENT-220th 4. Steering System21th Function and principle of Ackerman and Davis steering

mechanism22th types of steering gear boxes23th Worm and nut, worm and wheel, worm and roller, rack and

opinion24th Power steering system and alignment of wheels25th Toe in, toe out, camber, caster, kingpin inclination26th TEST-227th 5. Braking system28th Constructional details and working of mechanical, hydraulic

brake29th Concept of air and vacuum brake, brake adjustment30th Introduction to Anti lock brake system and its working31th 6. Suspension System32th Function, Types,33th Working of coil spring34th leaf spring35th Concept of Air suspension and Shock absorber.36th 7. Auto Electrical System37th Constructional details of lead acid cell battery38th Maintenance of batteries Checking spark gap and valve clearance

11th

12th

13th

Changing of wheels and inflation of tyres, balancing of wheels

measuring cell voltage and specific gravity of electrolyte

Driving practice on a 4-wheeler.

Charging of an automobile battery 9th

balancing of wheels

10th

6th Tuning of an automobile engine

7th Driving practice on a 4-wheeler.

8th

8th

6th

7th

9th

10th

11th

12th

13th

39th checking of batteries for voltage and specific gravity40th Magnato and Battery coil ignition system.41th Concept of Dynamo42th Alternator - Construction and working43th Charging of battery by Alternator and Regulator44th Assignment-345th Test- 3

15th

Cleaning and adjusting a carburetor.14th

Revision of all practicals15th

14th

LESSON PLANNAME OF FACULTY : MR. SUMIT KUMARDISCIPLINE : MECHANICAL ENGGSEMESTER : 6THSUBJECT : ENTREPRENEURSHIP DEVLOPMENT AND MANAGEMENTLESSON PLAN DURATION : 15 WEEKSWORK LOAD (LECTURE/ PRACTICAL) : LECTURES -03

LECTURE DAY TOPIC1st SECTION – A ENTREPRENEURSHIP - Introduction2nd Concept /Meaning and its need3rd Qualities and functions of entrepreneur4th barriers in entrepreneurship5th Sole proprietorship6th partnership forms of business organisations7th Schemes of assistance by entrepreneurial support agencies at National, State District level

8th organisation: NSIC, NRDC9th DC, MSME, SIDBI10th NABARD11th Commercial Banks

12th SFC’s TCO, KVIB, DIC13th Technology Business Incubators (TBI) and Science and Technology Entrepreneur Parks14th TEST -115th 2. Market Survey and Opportunity Identification16th Scanning of the business environment17th Salient features of National and State industrial policies18th resultant business opportunities19th Types20th

conduct of market survey21th Assessment of demand and supply in potential areas of growth

WEEK THEORY

1st

2nd

3rd

4th

5th

6th

7th

22th Identifying business opportunity23th Considerations in product selection24th Assignment- 1 NSIC, NABARD, DIC25th Project report Preparation - Preliminary project report26th Detailed project report including technical, economic and market feasibility27th Common errors in project report preparations28th Exercises on preparation of project report29th TEST-130th SECTION –B MANAGEMENT 4. Introduction to Management31th Definitions and importance of management Functions of management: Importance and process

of planning, organising, staffing, directing and controlling32th Principles of management (Henri Fayol, F.W. Taylor) Concept and structure of an organisation

33th Types of industrial organisationsa) Line organisationb) Line and staff organisationc) Functional Organisation

34th Assignment-2 project report35th 5. Leadership and Motivation36th a) Leadership

• Definition and Need• Qualities and functions of a leader• Manager Vs leader• Types of leadership

37th b) Motivation• Definitions and characteristics• Factors affecting motivation• Theories of motivation (Maslow, Herzberg, Douglas, McGregor)

38th 6. Management Scope in Different Areas

9th

10th

11th

12th

13th

8th

39th a) Human Resource Management• Introduction and objective• Introduction to Man power planning, recruitment and selection• Introduction to performance appraisal methodsb) Material and Store Management• Introduction functions, and objectives• ABC Analysis and EOQ

40th c) Marketing and sales• Introduction, importance, and its functions• Physical distribution • Introduction to promotion mix• Sales promotion

41th d) Financial Management• Introductions, importance and its functions• Elementary knowledge of income tax, sales tax, excise duty, custom dutyand VAT

42th Assignment-3 abc analysis43th 7. Miscellaneous Topics

a) Customer Relation Management (CRM)• Definition and need• Types of CRM

44th b) Total Quality Management (TQM)• Statistical process control• Total employees Involvement• Just in time (JIT)c) Intellectual Property Right (IPR)• Introductions, definition and its importance• Infringement related to patents, copy right, trade mark

45th TEST- 3

15th

14th

NAME OF FACULTY : MR. VIKAS SANGWANDISCIPLINE : MECHANICAL ENGGSEMESTER : 6THSUBJECT : INDUSTRIAL ENGINEERINGLESSON PLAN DURATION : 15 WEEKSWORK LOAD (LECTURE/ PRACTICAL) : LECTURES -04

LECTURE DAY TOPIC1st 1. Productivity2nd Introduction to productivity3rd factors affecting productivity4th Measurement of productivity5th causes of low productivity6th methods to improve productivity7th Assignment- 1 8th 2. Work Study9th Definition10th scope of work study11th Inter-relation between method study and work measurement12th Human aspects of work study13th Role of work study in improving productivity.14th Assignment- 2 15th Block diagram of work study16th TEST-117th 3. Method Study18th Objectives19th procedure for Method analysis20th Information collection21th recording techniques22th 4. Motion Analysis

LESSON PLAN

WEEK THEORY

1st

2nd

3rd

4th

5th

6th

23th Principles of Motion analysis24th Therbligs25th SIMO charts26th Normal work area27th design of work places28th ergonomics29th TEST-230th 5. Work Measurement31th Objectives32th work measurement techniques33th stop watch time study;34th principle, equipment used and procedure35th systems of performance rating;36th calculation of basic times;37th various allowances;38th calculation of standard time39th work sampling, standard data and its usage.40th ASSIGNMENT-341th 6. Wages and Incentive Schemes42th Introduction to wages, Wage payment for direct and indirect labour43th wage payment plans and incentives,44th various incentive plans, incentives for indirect labour.45th 7. Production Planning and Control46th Introduction, objectives and components (functions) of P.P.C,47th Advantages of production planning and Production Control, stages of P.P.C48th process planning, routing, scheduling, dispatching and follow up,49th routing purpose, route sheets, scheduling – purpose, machine loading chart50th Gantt chart, dispatching – purpose, and procedure, follow up –purpose and procedure

51th CPM/PERT technique, drawing of simple networks52th critical time calculation

9th

10th

11th

12th

13th

8th

7th

53th Production Control in job order, batch type and continuous type of productions54th Difference between these controls55th 8. Estimating and Costing - Introduction, purpose/functions of estimating56th costing concept, ladder and elements of cost57th difference between estimation and costing58th Overheads and their types, estimation of material cost59th estimation of cost for machining processes, numerical problems.60th TEST-3

15th

14th

NAME OF FACULTY: MR. PRADEEPDISCIPLINE: MECHANICAL ENGGSEMESTER : 6THSUBJECT : INSPECTION AND QUALITY CONTROLLESSON PLAN DURATION : 15 WEEKSWORK LOAD (LECTURE/ PRACTICAL) : LECTURES -04 , PRACTICALS -02

LECTURE TOPIC1st 1. Inspection

2nd Introduction, units of measurement3rd standards for measurement and interchangeability4th International, national and company standard5th line and wavelength standards6th Planning of inspection: what to inspect? When to inspect7th Who should inspect? Where to inspect?8th Types of inspection: remedial, preventive and operative inspection

9th incoming, in-process and final inspection. Study of factors influencing the quality of manufacture

10th ASSIGNMENT-1 , TYPE OF STANDARDS11th 2. Measurement and Gauging12th Basic principles used in measurement13th gauging14th mechanical, optical15th electrical and electronic16th Study of various measuring instruments17th calipers, micrometers18th dial indicators, surface plate, straight edge19th try square, protectors20th sine bar, clinometer21th comparators – mechanical, electrical and pneumatic22th Slip gauges, tool room microscope, profile projector.23th Limit gauges: plug, ring, snap, taper, thread, height, depth, form,

feeler, wire and their applications for linear, angular, surface, thread and gear measurements, gauge tolerances.

24th Geometrical parameters and errors: Errors & their effect on quality,

25th concept of errors26th measurement of geometrical parameter such as straightness,

flatness and parallelism27th Study of procedure for alignment tests on lathes28th drilling and milling machines.29th Testing and maintenance of measuring instruments

2nd

3rd

4th

5th

6th

LESSON PLAN

WEEK THEORY

1st

8th

7th

30th TEST-131th 3. Statistical Quality Control32th Basic statistical concepts33th empirical distribution and histograms34th frequency, mean, mode, standard deviation35th normal distribution36th binomial and Poisson, Simple- examples37th Introduction to control charts,38th namely X, R, P and C charts39th their applications40th Sampling plans41th selection of sample size, method of taking samples42th frequency of samples43th Inspection plan format and test reports44th ASSIGNMENT-2 , NUMERICALS45th TEST-246th 4. Modern Quality Concepts47th Concept of total quality management (TQM)48th National and International Codes49th ISO-900050th concept51th its evolution52th QC tools53th Introduction to Kaizen, 5S54th ASSIGNMENT-3 , ISO 900055th 5. Instrumentation56th Measurement of mechanical quantities57th displacement, vibration58th frequency, pressure temperature by electro mechanical transducers

of resistance59th capacitance & inductance type60th TEST-3

8

15th

9th

10th

11th

12th

13th

14th

PRACTICAL DAY TOPIC

LESSON PLAN

PRACTICAL

1st

3rd

Use of sine bar

6th Measurement of thread characteristic using gauges

7th

Use of dial indicator for measuring taper

Use of combination set

Measurement of thread characteristic using vernier

revision of previous practicals

Use of bevel protector

4th

5th

2nd

14th

8th

With the help of given data, plot X, R,

9th

10th

11th

12th

13th

With the help of given data, plot P and C charts15th

Use of slip gauge in measurement of center distance between two pins

Plot frequency distribution for 25 turned components.

types of slip gauges

Use of tool maker’s microscope

Use of comparator.

Plot frequency distribution for 50 turned components.