MergedFile - lbrce.ac.in

LAKIREDDY BALI REDDY COLLEGE OF ENGINEERING (Autonomous)

Department of Aerospace Engineering

Lesson plan

Course Name: - THEORY OF MACHINES -S403 SEM: IV

A.Y:2016-2017 Course: B.Tech Department: ASE

Sl.No Tentative

Date Topics to be covered

Actual

Date

No.

of

classes

Content

Delivery

Methods

Unit I- MECHANISMS

1 2-12-16 Introduction to Mechanisms 1 DM1

2 3-12-16 Machine- Structure 1 DM1/DM2

3 5-12-16 Kinematic link, pair and chain 1 DM1

4 6-12-16 Grueblers criteria 1 DM1

5 7-12-16 Tutorial-1 1 DM1

6 9-12-16 Constrained motion ,Degrees of freedom 1 DM1/DM2

7 10-12-16 Four bar mechanism 1 DM1

8 12-12-16 Single and Double slider crank chains 1 DM1

9 13-12-16 Inversions of Four bar mechanism 1 DM1

10 14-12-16 Tutorial-2 1 DM1/DM2

11 16-12-16 Inversions of Single slider crank chain 1 DM1

12 17-12-16 Inversions of double slider crank chain 1 DM4

13 19-12-16 Applications of single and double slider crank chain 1 DM1

14 20-12-16 Kinematic analysis of simple mechanisms 1 DM1

15 21-12-16 Determination of velocity of four bar and single

slider crank mechanism only 1 DM1

16 23-12-16 Determination of acceleration of four bar and single

slider crank mechanism only 1 DM1

Unit II- FRICTION

17 24-12-16 Introduction to Friction 1 DM1

18 26-12-16 Friction in screw and nut 1 DM1/DM2

19 27-12-16 Pivot and collar 1 DM1

20 28-12-16 Tutorial-3 1 DM1

21 30-12-16 Thrust bearing 1 DM1/DM2

22 31-12-16 Plate and disc clutches 1 DM1

23 2-01-17 Introduction to Belt and rope drives 1 DM1

24 3-01-17 Belt (flat and V) and rope drives. 1 DM1/DM2

25 4-01-17 Tutorial-4 1 DM1

26 6-01-17 Ratio of tensions in belt drives 1 DM1

27 7-01-17 Effect of centrifugal and initial tension 1 DM1

28 9-01-17 Problems on Centrifugal tension 1 DM1/DM2

29 10-01-17 Problems on ratios of tensions 1 DM1

30 17-01-17 Tutorial-5 1 DM4

31 18-01-17 Condition for maximum power transmission 1 DM1

32 20-01-17 Open and crossed belt drive. 1 DM1

33 21-01-17 Open and crossed belt drive problems

24-01-17 Mid exam

25-01-17 Mid exam

27-01-17 Mid exam

28-01-17 Mid exam

30-01-17 Mid exam

31-01-17 Mid exam

Unit III- GEARING AND CAMS

34 1-02-17 Introduction to Gearing 1 DM1/DM2

35 3-02-17 Gear profile and geometry 1 DM1

36 4-02-17 Nomenclature of spur and helical gears only– 1 DM1

37 6-02-17 Gear trains 1 DM1

38 7-02-17 Tutorial-6 1 DM1/DM2

39 8-02-17 Simple, compound gear trains and epicylic gear trains 1 DM1

40 10-02-17 Determination of speed and torque 1 DM1

41 11-02-17 Introduction to Cams 1 DM1

42 13-02-17 Types of cams 1 DM1/DM2

43 14-02-17 Tutorial-7 1 DM1

44 15-02-17 Design of profiles 1 DM4

45 17-02-17 Knife edged followers with and without offsets for

various types of follower motions 1 DM1

46 18-02-17 Flat faced followers with and without offsets for

various types of follower motions 1 DM1/DM2

47 20-02-17 Tutorial-8 1 DM1

48 21-02-17 Roller ended followers with and without offsets for

various types of follower motions 1 DM1/DM2

49 22-02-17 Problems on design of profiles 1 DM1

50 24-02-17 Problems on design of profiles 1 DM1

Unit IV- PRECISION

51 25-02-17 Introduction to Precision 1 DM1

52 27-02-17 Effect of Precision on Stability of moving vehicles 1 DM1

53 28-02-17 Effect of Precision on Stability of moving vehicles

such as motorcar motorcycle 1 DM1/DM2

54 1-03-17 Tutorial-9 1 DM1


such as motorcar motorcycle 1

DM1


such as Aero planes 1

DM1


such as Aero planes 1 DM1/DM2

58 7-03-17 Problems on Precision 1 DM1

59 8-03-17 Tutorial-10 1 DM4

60 10-03-17 Static and Dynamic forces generated due to in

Precision 1

DM1


Precision in moving mechanisms 1

DM1


Precision including Gyroscopic motions. 1 DM1/DM2


64 15-03-17 Tutorial-11 1 DM1


Precision including Gyroscopic motions. 1 DM1/DM2


Unit V- BALANCING

67 20-03-17 Introduction to Balancing 1 DM1

68 21-03-17 Static and dynamic balancing 1 DM1

69 22-03-17 Single and several masses in different planes 1 DM1

70 24-03-17 Balancing of reciprocating masses 1 DM1

71 25-03-17 Tutorial-12 1 DM1/DM2

72 27-03-17 primary balancing and concepts of secondary

balancing 1 DM1

73 28-03-17 Single and multi-cylinder engines (Inline) 1 DM4

74 29-03-17 Balancing of radial V engine 1 DM1

75 31-03-17 Direct and reverse crank method. 1 DM1/DM2

76 1-04-17 Tutorial-13 1 DM1

77 3-04-17 Direct and reverse crank method problems 1 DM1

78 4-04-17 Revision 1 DM1

79 5-04-17 Revision 1 DM1

6-04-17-

13-04-17 II Mid exam

Total class 79

Total number of classes available as per academic

calendar 79

Number of classes required to complete the

syllabus 79

NOTE: DELIVERY METHODS (DM):

DM1: Lecture interspersed with discussions/BB

DM2: Tutorial

DM3: Lecture with a quiz

DM4: Assignment/Test

DM5: Demonstration (laboratory, fieldvisit)

DM6: Presentations/PPT

Signature

Name of the Faculty Name of Course Co-ordinator HOD

Nazumuddin Shaik Dr.P.Lovaraju

CO’s and PO’s Mapping

pos

COs a b c d e f g h i j k l

CO1 3 3 1 2 3 3

CO2 3 3 2 2 3 3

CO3 3 3 2 2 1 1 3 3

CO4 3 3 2 2 1 1 3 3

CO5 3 3 2 2 1 1 3 3

LAKIREDDY BALI REDDY COLLEGE OF ENGINEERING (AUTONOMOUS),


Teaching Lesson Plan

Faculty Name: Dr. P. Lovaraju Semester: B.Tech, IV Semester A.Y: 2016-2017

Course: Aerodynamics-I

S. No Tentative


Actual

Date

No.of

classes

Content

Delivery

Methods

Unit I-POTENTIAL FLOW

1 1/12/16 Over view of the course DM1

2 2/12/16

Review of Fluid Mechanics and Introduction to the

Potential flow, Derivation of Potential flow

Equations (Laplace and Euler’s Equations)

DM1

3 5/12/16 Basic Flows-Uniform parallel flow, Source and

Sink Flows DM1

4 6/12/16 Source and Sink Pair-Doublet DM1

5 7/12/16 Tutorial-1 DM2

6 8/12/16 Combination of uniform flow and Source-Flow

past half body DM1

7 9/12/16 Flow past half body DM1

8 13/12/16 Rankine oval DM1

9 14/12/16 Flow past rankine oval DM1

10 15/12/16 Simple vortex, Flow over circular Cylinder without

circulation DM1

11 16/12/16 Tutorial-2 DM2

12 19/12/16 Flow over circular Cylinder without circulation DM1

13 20/12/16 Flow over circular Cylinder with circulation DM1

14 21/12/16 Kutta-Joukowsky Theorem DM1

15 22/12/16 Kutta-Joukowsky Theorem DM1

16 23/12/16 Tutorial-3 DM2

17 26/12/16 Revision DM6

Unit II- CONFORMAL MAPPING

18 27/12/16 Conformal Mapping Introduction DM1

19 28/12/16 Basic Principles DM1

20 29/12/16 Complex Numbers DM1

21 30/12/16 Methods for Performing Transformation DM1

22 27/2/16 Examples of Simple Transformation DM1


24 1/3/16 Kutta-Joukowski Transformation DM1

25 2/3/16 Transformation of Circle to Straight Line, Circle to

Ellipse DM1

26 3/3/16 Transformation of Circle to Symmetrical Aerofoil DM1




30 10/3/16 Transformation of Circle to Cambered Aerofoil DM1




34 17/3/16 Revision DM6

18.3/2016 to 26/03/2016--- I Mid exam

Unit III- AEROFOIL THEORY

35 28/3/16 Introduction to Aerofoil Theory DM1

36 29/3/16 Airfoil Characteristics DM1

37 30/3/16 Vortex Sheet DM1

38 31/3/16 Kutta Condition DM1

39 2/4/16 Thin Aerofoil Theory and its applications DM1

40 4/4/16 Thin Aerofoil Theory DM1

41 5/4/16 Analysis of symmetric airfoil DM1

42 6/4/16 Analysis of symmetric airfoil DM1

43 7/4/16 The cambered airfoil DM1

44 11/4/16 The cambered airfoil DM1


46 13/4/16 Basics of Panel Method DM1

UNIT IV- FINITE WING THEORY

47 16/4/16 Finite Wing Theory-Introduction DM1

48 18/4/16 Down wash and induced drag, Trailing Vortex,

Horseshoe Vortex

DM1

49 19/4/16 Vortex filament DM1

50 20/4/16 Biot-Savart law DM1

51 21/4/16 Prandtl’s Lifting Line Theory DM1

52 23/4/16 Prandtl’s Lifting Line Theory DM1

53 25/4/16 Elliptic Lift Distribution DM1

54 26/4/16 Elliptic Lift Distribution DM1


56 28/4/16 General Lift Distribution DM1

57 30/4/16 General Lift Distribution DM1


UNIT V- BOUNDARY LAYER

59 3/5/16 Boundary layer- Introduction, DM1

60 4/5/16 Boundary layer Thickness, Displacement

Thickness,

DM1

61 5/5/16 Momentum Thickness, Energy Thickness DM1

62 7/5/16 Types of Boundary layer DM1


64 10/5/16 Momentum Integral Estimates DM1

65 11/5/16 Karman Analysis of Flat plate DM1

66 12/5/16 Navier Stokes Equations DM1

67 1/6/16 Navier Stokes Equations-Boundary Layer

Equations-2D DM1

68 2/6/16 Boundary layer growth on a Flat Plate DM1

69 4/6/16 Blasius Solution DM1


71 7/6/16 Boundary Layer with Pressure Gradient DM1

Signature of the Faculty Signature of the HOD



DM2: Tutorial





Signature


Dr.P. Lovaraju Dr.P.Lovaraju

Course Outcomes:

CO1: To apply Laplace equation for obtaining 2D and axisymmetric solutions

CO2: To apply conformal transformation to from aerodynamic shapes

CO3: To apply potential flow theory to solve for aerofoil characteristics

CO4: To apply the Prandtl’s lifting line theory to predict finite wing properties

CO5: To analyze the effect of boundary layer on flow over objects

TEXT BOOK

Anderson, J.D., Fundamentals of Aerodynamics”, McGraw-Hill Book Co., New York,

1998.

REFERENCES

1. Houghton, E.L., Carpenter P.W., “Aerodynamics for Engineering students”, 6th Edition,

Elseveir

2. Milne Thomson, L.H., “Theoretical aerodynamics”, Macmillan, 1985.

3. Clancey, L.J., “Aerodynamics”, Pitman, 1986

Cos and Pos Mapping

pos

COs a b c d e f g h i j k l

CO1

CO2

CO3

CO4

CO5



Lesson plan

Course Name: Aircraft Structures-I(S121) SEM: IV

Course: B.Tech Department: ASE

Sl.

No.

Tentative


Actual

Date

No.

of

classes

Content

Delivery

Methods

Unit I- Basic Elasticity

1 01-12-16 Introduction to Basic Elasticity 1 DM1

2 02-12-16 Concept of principal planes 1 DM1

3 05-12-16 Principal stresses and strains 1 DM1

4 06-12-16 Determination of normal and tangential stresses 1 DM1

5 07-12-16 Stress acting on one plane 1 DM1

6 08-12-16 Stress acting on two mutually perpendicular planes 1 DM1

7 09-12-16 Normal and tangential and resultant stresses 1 DM2

8 13-12-16 Graphical methods to determine stresses 1 DM1

9 14-12-16 Mohr’s circle-uni axial, Bi-axial 1 DM1

10 15-12-16 Mohr’s circle-bi axial with shear 1 DM1

11 16-12-16 Graphical methods 1 DM2

12 19-12-16 equations of equilibrium 1 DM1

13 20-12-16 plane stress problems 1 DM1

14 21-12-16 plane strain problems 1 DM1

15 22-12-16 compatibility equations 1 DM1

16 23-12-16 stress - strain relations 1 DM1

17 26-12-16 Basic Elasticity 1 DM4

Unit II- Statically Determinate Structures

18 27-12-16 Introduction to statically determinate structures 1 DM1

19 28-12-16 Equations of Equilibrium 1 DM1

20 29-12-16 Determinacy and Stability 1 DM1

21 30-12-16 Beams, frames 1 DM1

22 02-01-17 Principle of Superposition 1 DM1

23 03-01-17 Types of frames 1 DM1

24 04-01-17 Reactions of supports of a frame 1 DM1

25 05-01-17 Analysis of plane truss 1 DM1

26 06-01-17 Analysis of plane truss-types of frame 1 DM2

27 09-01-17 Method of joints for simple frames 1 DM1

28 10-01-17 Method of joints for complex frames 1 DM1

29 11-01-17 Method of joints solutions 1 DM1

30 17-01-17 Method of sections for simple frames 1 DM1

31 18-01-17 Method of sections for complex frames 1 DM1

32 19-01-17 Method of sections 1 DM2

33 20-01-17 Statically Determinate Structures 1 DM4

Unit III- Statically Indeterminate Structures

34 01-02-17 Introduction to statically Indeterminate structures 1 DM1

35 02-02-17 Methods for indeterminate beams 1 DM1

36 03-02-17 double integration method 1 DM1

37 06-02-17 Propped cantilever- prop reaction 1 DM1

38 07-02-17 Propped cantilever with point load and UDL 1 DM1

39 08-02-17 Fixed-Fixed beams 1 DM1

40 09-02-17 BMD of fixed beams 1 DM1

41 10-02-17 Propped cantilever and fixed beams 1 DM2

42 13-02-17 Continuous beams 1 DM1

43 14-02-17 Clapeyron's three moment equation 1 DM1

44 15-02-17 SFD and BMD of continuous beams with point load 1 DM1

45 16-02-17 SFD and BMD of continuous beams with UDl 1 DM1

46 17-02-17 Continuous beam problems 1 DM2

47 20-02-17 Moment distribution Method 1 DM1

48 21-02-17 Relative stiffness –continuous beams. 1 DM1

49 22-02-17 Statically Indeterminate Structures 1 DM4

Unit IV- Energy Methods

50 23-02-17 Introduction to energy methods 1 DM1

51 27-02-17 Strain Energy due to axial loading 1 DM1

52 28-02-17 Strain Energy due to bending 1 DM1

53 01-03-17 Strain energy stored by the member 1 DM1

54 02-03-17 Deflection of beams using strain energy 1 DM1

55 03-03-17 Strain energy 1 DM2

56 06-03-17 Castigliano’s first theorem 1 DM1

57 07-03-17 Deflection of beams using Castigliano’s first theorem 1 DM1

58 08-03-17 Castigliano’s second theorem 1 DM1

59 09-03-17 Maxwell's Reciprocal theorem 1 DM1

60 10-03-17 Castigliano’s theorems 1 DM2

61 13-03-17 Unit load method 1 DM1

62 14-03-17 Deflection of frames by using unit load method 1 DM1

63 15-03-17 Energy Methods 1 DM4

Unit V- Columns

64 16-03-17 Introduction to columns 1 DM1

65 17-03-17 Axially loaded compression members-Crushing load-

Buckling load 1 DM1

66 20-03-17 Euler’s theory-Effective length of column 1 DM1

67 21-03-17 Expressions for buckling load with different column

end conditions 1 DM1

68 22-03-17 Expressions for buckling load with different column

end conditions 1 DM1

69 23-03-17 Limitations-Euler’s formula 1 DM1

70 24-03-17 Euler’s crushing load 1 DM2

71 27-03-17 Rankine’s formula 1 DM1

72 29-03-17 Column with initial curvature- Columns subjected to

eccentric loading 1 DM1

73 30-03-17 Euler’s method- Rankine’s method 1 DM1

74 31-03-17 Columns 1 DM4

75 03-04-17 Advanced topics 1 DM1

76 04-04-17 Revision 1 DM1

Total class 76


calendar 76

Number of classes required to complete the syllabus 74



DM2: Tutorial





Course Educational Outcomes:

To solve problems by apply the stress-strain relations

To analyze the trusses under loading conditions

To analyze the statically indeterminate structures under loading conditions

To evaluate the strain energy stored in the structural members

To analysis the buckling of columns and compressive members.

TEXT BOOKS:

1. Timoshenko, S., “Strength of Materials”, Vol. I and II, Princeton D. Vonostrand Co, 1990.

2. Bruhn.E.F.”Analysis and design of flight vehicle structures” Tri set of offset Company, USA,

1973.

REFERENCE BOOKS:

1. Donaldson, B.K.,“Analysis of Aircraft Structures-An Introduction”, McGraw-Hill, 1993.

2. B.C.Punmia, “Theory of Structures”, Laxmi Publication.

3. S.Ramamrutham, R.Narayanan,“Theory of Structures”-Dhanpat Rai Publishing Co, 2003.

Signature


S.Indrasena Reddy Dr.P.Lovaraju

LAKIREDDY BALI REDDY COLLEGE OF ENGINEERING(AUTONOMOUS) L.B.Reddy Nagar, Mylavaram – 521 230.Andhra Pradesh, INDIA Affiliated to JNTUK, Kakinada & Approved by AICTE New Delhi

Accredited by NBA, New Delhi & certified by ISO 9001:2008


Course: B.Tech (IV sem) AY: 2016-17

Lesson Plan for Applied Thermodynamics (S136)

Sl.

No.

Tentative


Actual

Date

No.

of

classes

Content

Delivery

Methods

Unit IV- IC engines

1 29-11-16 I.C.Engines: Introduction 1 DM1

2 30-11-16 Classification 1 DM1/DM2

3 01-12-16 Components of S.I Engine 1 DM1

4 02-12-16 Components of C.I Engine 1 DM1

5 03-12-16 Tutorial - 1 1 DM2

6 06-12-16 Working of four stroke Engine 1 DM1/DM2

7 07-12-16 Working of two stroke Engine 1 DM1

8 08-12-16 Comparison of 2-Stroke and 4-Stroke engines 1 DM1

9 09-12-16 Air-fuel mixture, Carburetion 1 DM1

10 10-12-16 Tutorial - 2 1 DM2

11 14-12-16 Fuel injection System in C.I engine 1 DM1

12 15-12-16 Types of engine cooling 1 DM4

13 16-12-16 Engine lubrication system 1 DM1

14 17-12-16 Types of Engine Lubrication systems 1 DM1/DM2

16 20-12-16 Tutorial – 3 1 DM2

16 21-12-16 Performance parameters 1 DM1

17 22-12-16 Sample problems 1 DM1/DM2

UNIT-V REFRIGERATION AND AIR CONDITIONING

18 23-12-16 Refrigeration: Introduction, Unit of Refrigeration 1 DM1

19 24-12-16 Types of Refrigeration systems, Air Refrigeration

system 1 DM1

20 27-12-16 Simple & air evaporative cooling system 1 DM1

21 28-12-16 Boot strap air evaporative cooling system 1 DM2

22 29-12-16 Tutorial - 4 1 DM1

23 30-12-16 Reduced ambient, regenerative air cooling system 1 DM1

24 03-01-17 Problems on Air Refrigeration systems 1 DM1/DM2

25 04-01-17 Problems on Air Refrigeration systems 1 DM1

26 05-01-17 Air conditioning- Introduction, Psychrometry 1 DM2

27 06-01-17 Tutorial – 5 1 DM1

28 07-01-17 Psychrometric properties 1 DM1/DM2

29 17-01-17 Air conditioning Processes 1 DM1

30 18-01-17 Problems on Psychrometric properties 1 DM1

31 19-01-17 Problems on Psychrometric properties 1 DM2

32 20-01-17 Air conditioning systems, Summer air conditioning 1 DM1/DM2

33 21-01-17 Winter air conditioning, Year round air conditioning 1 DM1

UNIT-I RANKINE CYCLES AND STEAM GENERATORS

34 27-01-17 Vapour power cycles:introduction, Carnot vapour

power cycle 1 DM1

35 28-01-17 Rankine cycle,Comparision between the carnot and

rankine cycle 1 DM1

36 31-01-17 Irreversibility and losses in vapour power cycle 1 DM1/DM2

37 01-02-17 Effect of operating variables on rankine cycle 1 DM1

38 02-02-17 Tutorial - 6 1 DM4

39 03-02-17 Methods to improve efficiency of rankine cycle with

reheating 1 DM1

40 04-02-17 Super critical rankine cycle, Regenerative rankine

cycle 1 DM1/DM2

41 07-02-17 Steam generators:Introduction,Functions, Types of

boilers, Fire tube and water tube boilers 1

DM1

42 08-02-17 Boiler mountings and Accessories 1 DM1

43 09-02-17 Tutorial - 7 1 DM1

44 10-02-17 Draught system Functions, Types of Draughts 1 DM1

45 14-02-17 Natural Draught, Artificial Draught 1 DM1

UNIT-II STEAM NOZZLES AND STEAM CONDENSERS

46 15-02-17 Steam Nozzles: Introduction, Types of nozzles 1 DM1/DM2

47 16-02-17 Flow through nozzles-Thermodynamic analysis,

Velocity of nozzle at exit 1 DM1

48 17-02-17 Condition for maximum discharge, Critical Pressure 1 DM1

49 18-02-17 Supersaturated flow, Degree of super saturation 1 DM1/DM2

50 21-02-17 Tutorial - 8 1 DM1/DM2

51 22-02-17 Degree of super cooling-Wilson line 1 DM1

52 23-02-17 Discussion continued on Degree of super cooling-

Wilson line 1

DM1

53 25-02-17 Steam Condensers: Introduction, Functions of a

steam Condenser 1 DM1/DM2

54 28-02-17 Elements of a Steam condensing plant 1 DM1

55 01-03-17 Tutorial - 9 1 DM2

56 02-03-17 Types of condensers, jet condensers, Surface

condensers 1 DM1

57 03-03-17 Condenser Efficiency 1 DM1/DM2

58 04-03-17 Problems 1 DM1

UNIT-III STEAM TURBINES

59 07-03-17 Steam Turbines: Introduction, Classification of

Steam Turbines 1

DM1

60 08-03-17 Impulse turbine, working details 1 DM1

61 09-03-17 velocity diagrams 1 DM1

62 10-03-17 Optimum operating conditions from blade velocity

diagrams 1

DM1

63 14-03-17 Tutorial - 10 1 DM1/DM2

64 15-03-17 Effect of blade friction on velocity 1 DM1

65 16-03-17 Condition for maximum discharge 1 DM2

66 17-03-17 Compounding of impulse and reaction turbine 1 DM1

67 18-03-17 Compounding of impulse and reaction turbine 1 DM1/DM2

68 21-03-17 Losses in steam turbines 1 DM1

69 22-03-17 Tutorial - 11 1 DM1

70 23-03-17 Revision 1 DM2

71 24-03-17 Revision 1 DM1/DM2

72 25-03-17 Revision 1 DM1

73 29-03-17 Revision 1 DM6

74 30-03-17 Revision

Total class 74


calendar 74


syllabus 70



DM2: Tutorial





Course Outcomes:

CO1: Identify all the essential components of a thermal power plant and develop methods of

reducing losses in a vapor power cycle.

CO2: To analyze performance the stream nozzles and condensers

CO3: To analyze and compare the performance of Impulse, Reaction turbines

CO4: To know the function of various components I.C engines

CO5: To evaluate the basic aspects of Refrigeration and Air conditioning systems

TEXT BOOK

1. Mahesh M Rathore,Thermal Engineering, Tata McGraw Hill

2. T.D Eastop and A. McConkey, Applied Thermodynamics, Pearson Education

REFERENCES

1. Rayner Joel, Basic Engineering Thermodynamics, Fifth Edition, AWL

2. Roy Choudhury, Basic Engineering Thermodynamics, 2nd Edition, Tata McGraw Hill

3. P.K Nag, Power Plant Engineering, 3rd Edition, Tata McGraw Hill

PO's Mapping With CO's:

Mapping of Course Outcomes (COs) with Programme Outcomes (POs) ATD - S 136

Pos

a b c d e f g h i j k l

CO

s

CO1 1 1 1 2 1 1 1 2

CO2 1 1 1 1 2 2 1 1

CO3 1 1 1 2 2 1 2 1

CO4 1 1 1 1 2 2 3 1

CO5 1 1 1 1 2 2 3 1

Signature


I. Dakshina Murthy Dr.P.Lovaraju



Lesson plan

Course Name: - METALLURGY AND MATERIAL SCIENCE SEM: IV

A.Y:2016-2017 Course: B.Tech Department: ASE

Sl.No Tentative


Actual

Date

No.

of

classes

Content

Delivery

Methods

1 2/12/16 Introduction to Metallurgy and Materials Science 1 DM1

2 3/12/16 Introduction-Bonds in solids, Ionic bond, covalent

bond 1 DM1

3 5/12/16 Metallic bond 1 DM1

4 6/12/16 Mechanism of crystallization of metals 1 DM1

5 7/12/16 Grain and grain boundaries 1 DM1

6 9/12/16 Effect of Grain Size on properties of metals 1 DM1

7 10/12/16 Tutorial – I 1 DM4

8 12/12/16 Effect of grain boundaries on the properties of metals 1 DM1

9 14/12/16 Determination of grain size 1 DM1

10 16/12/16 Necessity of alloying, 1 DM1

11 17/12/16 Solid solutions, 1 DM1

12 19/12/16 Tutorial – II 1 DM4

13 20/12/16 Interstitial and Substitutional Solid Solutions 1 DM1

14 21/12/16 Hume Rotherys rules 1 DM1

15 23/12/16 Equilibrium of Diagrams-Introduction 1 DM1

16 24/12/16 Experimental methods of construction of E.D 1 DM1

17 26/12/16 Classification of E .D 1 DM1

18 27/12/16 Isomorphous E .D, Eutectic ED 1 DM1

19 28/12/16 Partial eutetic equilibrium diagrams 1 DM1

20 30/12/16 Tutorial – III 1 DM4

21 31/12/16 Lever rule,Coring,Allotropy 1 DM1

22 2/1/17 Cu-Ni, Cd- Bi Equilibrium Diagrama 1 DM1

23 3/1/17 Problems on Cu-Ni equilibrium Diagram, Gibb’s

phase rule 1

DM3

24 4/1/17 Fe-Fe3C equilibrium diagram 1 DM1

25 6/1/17 Structural changes in Fe-Fe3C equilibrium diagram 1 DM1

26 7/1/17 Invariant reactions in Fe- Fe3C equilibrium diagram 1 DM1

27 9/1/17 Allotropic forms of Iron 1 DM1

28 10/1/17 Tutorial – IV 1 DM4

29 11/1/17 Phase Calculations in Fe-C equilibrium diagram 1 DM1

30 17/1/17 Cooling curve of Fe 1 DM1

31 18/1/17 Cooling of steels and CI in Fe-Fe3C diagram 1 DM1

32 20/1/17 Tutorial - V 1 DM4

33 21/1/17

I MID EXAMS(23/1/17-31/1/17)

34 1/2/17 Cast Irons-Introduction 1 DM1

35 3/2/17 Classification of cast irons 1 DM1

36 4/2/17 White cast iron ,Malleable cast iron 1 DM1

37 6/2/17 Grey cast iron , Spheriodal graphite cast iron 1 DM1

38 7/2/17 Tutorial - VI 1 DM4

39 8/2/17 Steels-Introduction 1 DM1

40 10/2/17 Low carbon steel 1 DM1

41 13/2/17 Medium carbon steel , High carbon steel 1 DM1

42 14/2/17 Alloy Steels 1 DM1

43 15/2/17 Non-ferrous Metals-Introduction 1 DM1

44 17/2/17 Tutorial - VII 1 DM4

45 18/2/17 Copper and its alloys 1 DM1

46 20/2/17 Aluminum and its properties 1 DM1

47 21/2/17 Tutorial - VIII 1 DM4

48 22/2/17 Heat treatment of Alloys 1 DM1

49 25/2/17 Annealing and Normalizing 1 DM1

50 27/2/17 Hardenability- Jominy end quench test 1 DM1

51 28/2/17 Tutorial - IX 1 DM4

52 1/3/17 Surface hardening methods- Introduction 1 DM1

53 3/3/17 Flame Hardening & Induction hardening 1 DM1

54 4/3/17 Carburising and Nitriding 1 DM1

55 6/3/17 Age hardening treatment 1 DM1

56 7/3/17 Tempering Processes 1 DM4

57 8/3/17 Tutorial - X 1 DM1

58 10/3/17 Hot working and cold working-Introduction 1 DM1

59 13/3/17 Recovery, Recrystallisation & Grain Growth 1 DM4

60 14/3/17 Comparison of properties of cold and hot worked

parts 1

DM1

61 15/3/17 Ceramic Materials: Properties and applications 1 DM4

62 17/3/17 Tutorial - XI 1 DM1

63 18/3/17 Cermaets and abrasive materials 1 DM1

64 20/3/17 Composite materials : Classification of composites 1 DM1

65 21/3/17 Manufacturing of composite materials 1 DM1

66 22/3/17 Manufacturing of composite materials 1 DM1

67 24/3/17 Metal ceramic composites ,Metal matrix composites

and C-C composites 1 DM1

68 25/3/17 Problems on Rule of mixtures 1 DM4

69 27/3/17 Problems on Rule of mixtures 1 DM4

70 29/3/17 Tutorial - XII 1 DM1

71 31/3/17 Advances in Material science 1 DM1

72 1/4/17 Revision 1 DM1


74 4/417 Revision 1 DM1


calendar 74


syllabus 65



DM2: Tutorial





Signature


K. Ramya Mounika Dr.P.Lovaraju

LAKIREDDY BALI REDDY COLLEGE OF ENGINEERING(AUTONOMOUS) L.B.Reddy Nagar, Mylavaram – 521 230.Andhra Pradesh, INDIA Affiliated to JNTUK, Kakinada & Approved by AICTE New Delhi

Accredited by NBA, New Delhi & certified by ISO 9001:2008


Course: B.Tech (IV sem) AY: 2016-17

Lesson Plan for Manufacturing Technology (S297)

Sl.

No.

Tentative


Actual

Date

No.

of

classes

Content

Delivery

Methods

1 1/12/16 UNIT-I :

Introduction to Manufacturing 1 DM1

2 2/12/16 Manufacturing applications 1 DM1/DM2

3 5/12/16 Historical perspective, Importance of manufacturing 1 DM1

4 6/12/16 Classification of manufacturing processes 1 DM1

5 7/12/16 Engineering materials 1 DM2

6 8/12/16 Casting: Steps involved in making a casting 1 DM1/DM2

7 9/12/16 Advantages of castings and its applications 1 DM1

8 13/12/16 TUTORIAL-1 1 DM1

9 14/12/16 Pattern making, Types of patterns 1 DM1

10 15/12/16 Materials used for patterns, pattern allowances and

their constructions 1 DM2

11 16/12/16 principles of Gating, Gating ratio, types of raisers,

casting defects 1 DM1

12 19/12/16 Special casting processes: 1.Centrifugal 2.Die 1 DM4

13 20/12/16 3. Investment 4. Continuous 1 DM1

14 21/12/16 TUTORIAL-2 1 DM1/DM2

16 22/12/16 Assignment-1/Quiz-1 1 DM2

16 23/12/16 Special casting processes: 1.Centrifugal 2.Die 1 DM1

17 26/12/16 1 DM1/DM2

UNIT-2:

18 27/12/16 Welding and other joining processes 1 DM1

19 28/12/16 Classification of welding process, Types of welding. 1 DM1

20 29/12/16 welded joints and their characteristics, Principle and

applications 1 DM1

21 30/12/17 Gas welding, Arc welding 1 DM2

22 27/2/17 TUTORIAL-3 1 DM1

23 29/2/17 welding defects, Inert gas welding, 1 DM1

24 1/3/17 Tig and Mig welding 1 DM1/DM2

25 2/3/17 Friction welding, Induction welding 1 DM1

26 3/3/17 Soldering and Brazing 1 DM2

27 5/3/17 welding defects, Inert gas welding, 1 DM1

28 8/3/17 Tig and Mig welding 1 DM1/DM2

29 9/3/17 Friction welding, Induction welding 1 DM1

30 15/3/17 welded joints and their characteristics, Principle and

applications 1

DM1

32 16/3/17 TUTORIAL-4 1 DM1/DM2

33 17/3/17 Assignment-2/Quiz-2 1 DM1

UNIT-3 :

34 28/3/17 Metal forming processes Introduction 1 DM1

35 29/3/17 Rolling fundamentals, 1 DM1

36 30/3/17 Theory of rolling types of rolling mills and products 1 DM1/DM2

37 31/3/17 Principles of Forging, Tools and dies 1 DM1

38 2/4/17 Types of Forging,

Smith forging 1 DM4

39 4/4/17 Drop forging, Drawing and its types Wire drawing 1 DM1

40 5/4/17 Tube drawing, Coining, 1 DM1/DM2

41 6/4/17 Hot and Cold Spinning. 1 DM1

42 7/4/17 TUTORIAL-5 1 DM1

43 11/4/17 Extrusion of metals: Basic extrusion process and its

characteristics, and piercing 1

DM1

UNIT-4:

46 13/4/17 Machining Processes Introduction 1 DM1/DM2

47 12/4/17 Mechanism of chip formation, 1 DM1

48 13-04-17 Tool geometry, cutting tool 1 DM1

49 16-04-17 Tool wear- cutting materials 1 DM1/DM2

50 18-04-17 tool life & machinability cutting fluids 1 DM1/DM2

51 19-04-17 Introduction to Lathe- working Principle of lathe and

operations 1

DM1

52 20-04-17 TUTORIAL-7 1 DM1

53 21-04-17 Assignment/Quiz- 4 1 DM1/DM2

UNIT-5:

59 16/4/17 Machining operations Introduction 1 DM1

60 18/4/17 Shaping, planning, milling 1 DM1

61 19/4/17 Drilling, grinding processes, 1 DM1

62 20/4/17 Finishing processes 1 DM1

63 21/4/17 Introduction to unconventional machining

processes: EDM,ECM, 1 DM1/DM2

64 23/4/17 UCM,CHM and LBB 1 DM1

65 25/4/17 TUTORIAL-8 1 DM2

66 26/4/17 Assignment/Quiz-5 1 DM1


71 28/4/17 Revision 1 DM1/DM2



Total class 73


calendar 73


syllabus 73

LAKIREDDY BALI REDDY COLLEGE OF ENGINEERING

(AUTONOMOUS)

L.B.REDDY NAGAR, MYLAVARAM – 521 230

Lesson Plan

SUBJECT : Professional ethics & human values (T290)

Branch& Year: AEROSPACE ENGINEERING

FACULTY : N.SAMBASIVA RAO Semester: IVthSemester

Designation : Asst. Professor

S

No.

Tentative

Date

Topics to be covered Actual

Date

Num.

of

classe

s

Content

Delivery

Methods

UNIT-I:Human Values

1. 29-11-16 Introduction about Values 1 DM1

2. 30-11-16 Morals ethics and Values 1 DM1

3. 01-12-16 Integrity Work ethics;Service Learning 1 DM1

4. 02-12-16 Civic Virtue 1 DM1

5. 03-12-16 Respect for others ,Living peacefully 1 DM1

6. 08-12-16 Caring, Sharing ,Honesty, Courage 1 DM1

7. 09-12-16 Valuing time Cooperation, Commitment 1 DM1

8. 10-12-16 Empathy, Self-confidence character, Spirituality 1 DM1

9. 14-12-16 Tutorial-1 DM2

Unit-II: Engineering Ethics

10. 16-12-16 Introduction about engineering ethics 1 DM1

11. 17-12-16 Senses of engineering ethics 1 DM1

12. 20-12-16 Variety of moral issued 1 DM1

13. 21-12-16 Moral dilemmas moral autonomy 1 DM1

14. 22-12-16 Moral dilemmas moral autonomy 1 DM1

15. 27-12-16 Kohlberg’s theory;Gilligan theory 1 DM1

16. 28-12-16

Comparison of Kohlberg’s theory and Gilligan

theory

17. 29-12-16 Consensus and controversy 1 DM1

18. 30-12-16

Models of professional roles about right action

self interest

1 DM1

19. 03-01-17 Customs and religion uses of ethical theories 1 DM1

20. 04-01-17 Tutorial-2 DM2

14-03-2017

to

19-03-2017

I MID EXAMINATIONS

Unit-IIIEngineering as social experimentation

21. 27-01-17 Engineering as experimentation introduction 1 DM1

22. 28-01-17 Engineering Projects VS. Standard Experiments 1 DM1

23. 31-01-17 Engineers as responsible experimenters

1 DM1

24. 01-02-17 Codes of ethics - Industrial Standards 1 DM1

25. 02-02-17 A balanced outlook on law 1 DM1

26. 03-02-17 The challenger case study 1 DM1

27. 07-04-2016 Tutorial -3 1 DM2


(AUTONOMOUS)


Lesson Plan





Unit – IV Safety, responsibilities and rights

28. 04-02-17 Introduction about Safety, and rights 1 DM1

29. 07-02-17 Safety and risk 1 DM1

30. 08-02-17

Assessment of safety and risk and Risk benefit

analysis and reducing risk

1 DM1

31. 09-02-17 Three Mile Island and Chernobyl case study

1 DM1

32. 10-02-17 Collegiality and loyalty 1 DM1

33. 14-02-17 Respect for authority, collective bargaining

1 DM1

34. 15-02-17 Confidentiality- Conflicts of interest 1 DM1

35. 16-02-17 Occupational crime - Professional Rights

1 DM1

36. 17-02-17

Employee rights- Intellectual Property Rights

(IPR) discrimination

1 DM1

37. 18-02-17 Tutorial-4 1 DM2

Unit –V GLOBAL ISSUES 38. 14-03-17 Multinational Corporation’s 1

39. 15-03-17 Environmental ethics-computer ethics 1 DM1

40. 16-03-17 weapons development Engineers as managers 1 DM1

41. 17-03-17 consulting engineers 1 DM1

42. 18-03-17

engineers as expert witnesses and advisors Moral

leadership

1 DM1

43. 21-03-17 sample code of Ethics;tutorial-5 1 DM2

22-03-17 II MID EXAMINATIONS

Total number of classes required to complete the syllabus 43

Total number of classes available as per Schedule 43

Note: delivery methods (DM)

DM1: LECTURE INTERSPERSED WITH DISCUSSIONS/BB

DM2: Tutorial


DM4: Assignment/test

DM5: Demonstration (laboratory, feildvisit)



(AUTONOMOUS)


Lesson Plan





At the end of the course, students attained the course outcomes: CO1, CO2, CO3, CO4, CO5 and

same proofs are enclosed in course file.

CO1: Acquires the basic concepts of Professional ethics and human values & Students also gain the

connotations of ethical theories.

CO2: Knows the duties and rights towards the society in an engineering profession

CO3: Would realize the importance and necessity of intellectual property rights.

CO4: Can take all the necessary precautions while conducting the experiments, which may reduce the

risk.

CO5: Understands the importance of risk evacuation system in reality and takes the utmost

responsibility while handling the risky situations.

TEXT BOOKS

1. R.S.Nagarajan, a Textbook on “Professional Ethics and Human Values”, New Age

Publishers – 2006.

2. Mike Martin and Roland Schinzinger, "Ethics in engineering", McGraw Hill, New

York 1996.

Faculty Signature Head of the dept. signature

MergedFile - lbrce.ac.in

Documents

Transcript of MergedFile - lbrce.ac.in