Department: Mechanical Program: B.Tech Course: IC Engines ...
Transcript of Department: Mechanical Program: B.Tech Course: IC Engines ...
1. Pre-requisites: Thermodynamics
2. Course Educational Objectives (CEOs):
To provide students an insight of construction, function and performance analysis of IC
engines, gas turbines using various cycles and jet propulsion systems.
3. Course Outcomes (COs): At the end of the course, the student will be able to
:
CO1: Identify various components and functioning of IC Engines, Gas-turbines and
Jet-propulsion systems.
CO2: Analyze the characteristics of IC Engines and Gas-turbines using Air/fuel, Air-
standard, Actual and Brayton cycles.
CO3: Evaluate the performance of IC engines and gas turbines through thermodynamic
cycles.
CO4: Analyze combustion characteristics and select different combustion chambers for
IC engines.
CO5: Comprehend the need of cooling, lubrication, ignition and fuel supply systems
for efficient operation of IC engines.
4. Course Articulation Matrix:
Course
Code
COs Programme Outcomes PSOs
1 2 3 4 5 6 7 8 9 10 11 12 1 2 3
T267
CO1 1 2 1 1 1 2 2
CO2 2 3 2 1 2 1 1 3 1
CO3 2 3 3 2 2 2 2 3 1
CO4 1 3 2 2 2 1 1 2 1
CO5 1 2 1 1 1 1 2
1 = Slight (Low) 2 = Moderate (Medium) 3-Substantial(High)
Department: Mechanical Program: B.Tech
Course: –IC Engines and Gas Turbines (T267)
SEM: V Semester (Section-A) Academic Year: 2017-18
Academic Year: 2017-18
LESSON PLAN
5. Course Delivery Plan:
S.NO TOPIC TO BE COVERED No.of Classes
Date DM As per the
Schedule
Taken
UNIT-I
1 Introduction to IC Engines &
classification of IC Engines
1 19/6/2017 5
2 Basic Engine components and
Nomenclature 1 21/6/2017 1,5
3 Working principles of Four stroke
SI and CI Engines 1 22/6/2017 1,5
4 Working principles of Two stroke
SI and CI Engines & Tutorial-I 1 24/6/2017 3
5 Valve Timing diagrams for Four
stroke Engines 1 28/6/2017 1,5
6 Port timing diagrams for Two
stroke engines & Applications of IC
Engines
1
29/6/2017
1,5
7 Layout of Fuel supply system for SI
Engine-Simple Carburettor,
Assignment-I
1
01/7/2017 6,4
8 Fuel supply system for CI Engine-Solid Injection-Individual pump
type-Common rail type only
1
03/7/2017 1
9 Tutorial-II, Quiz-I 1 05/7/2017 3,4
Number of classes 9
UNIT-II
10 Air-standard cycles: Carnot cycle 1 06/7/2017 1
11 Otto cycle & its analysis 1 08/7/2017 1
12 Diesel ,Dual cycle & its analysis 1 10/7/2017 1
13 Atkinson , Stirling , Ericson Cycles 1 12/7/2017 1
14 Brayton cycle and its analysis 1 13/7/2017 1
15 Problems on Otto, Diesel and Dual
cycles 1 15/7/2017 1
16 Problems on Brayton cycle and
Tutorial-III, Assignment-II 1 17/7/2017 3,4
17 Fuel-air cycles and their
significance, composition of
cylinder gases
1
19/7/2017 1
18 Dissociation, comparison of air-
standard and fuel-air cycles.
1 20/7/2017 1
19 Comparison of air-standard
and actual cycles, time loss factor 1 22/7/2017 1
20
Heat loss factor, exhaust blow
down, loss due to rubbing
Friction, actual and fuel-air cycles
of engines.
1
24/7/2017
1
21 Cooling systems, Air cooling, Water
cooling, Comparison, Radiators
and cooling fans
1
26/7/2017 1,6
22 Lubricating systems, Mist lubrication, Wet sump lubrication,
and Dry sump lubrication system
1
27/7/2017
1,6
23 Ignition systems- Battery, Magneto
Ignition systems 1 29/7/2017 1,6
24 Electronic Ignition system 1 02/8/2017 1,6
25 Tutorial-IV, Quiz-II 1 03/8/2017 3,4
Number of classes 16
Unit-III
26 Introduction, Homogeneous and
Heterogeneous mixture, stages of
combustion in SI engines
1 05/8/2017
1
27 Flame front propagation, factors
influencing the flame speed
1 07/8/2017 1
28 Abnormal combustion,
phenomenon of knock in SI
engines
1 14/8/2017
1,6
29 Effect of engine variables on knock 16/8/2017 1,6
30 Combustion chambers for SI
engines- Fuel requirement and fuel
rating
1 17/8/2017
6
31 Tutorial-V, Assignment-III 1 16/8/2017 3,4
32 Stages of combustion in CI
engines, factors affecting the delay
period
1 17/8/2017
1
33 Phenomenon of knock in CI
engines, comparison of knock
in SI and CI engines
1 19/8/2017
6
34 Combustion Chambers for CI
engines-I
1 21/8/2017 6
35 Combustion Chambers for CI
engines-II and Fuel requirement,
fuel rating
1 23/8/2017
1,6
36 Tutorial-VI, Quiz-III 1 24/8/2017 3,4
Number of classes 11
UNIT-IV
37 Introduction, Parameters of
performance- Measurement of Fuel consumption, Air intake
1 26/8/2017
1
38 Measurement of Brake power,
Determination of Frictional
power and Indicated power
1 28/8/2017
1,5
39 Performance tests & Performance
Characteristic Curves
1 30/8/2017 1,5
40 Heat Balance sheet and Tutorial-
VII, Quiz-IV
1 31/8/2017 5,3,4
41 Problems on Engine performance-I 1 04/9/2017 1
42 Problems on Engine performance-II 1 06/9/2017 1
43 Problems on Morse Test 1 07/9/2017 1
44 Problems on Heat Balance sheet-I 1 09/9/2017
1
45 Problems on Heat Balance sheet-II 11/9/2017 1
46 Tutorial-VIII, Assignment-IV 1 13/9/2017 3,4
Number of classes 10
UNIT-V
47 Gas turbine plant and Its
Components, Classification
1 14/9/2017 6
48 Analysis of Closed and Open cycle
Gas Turbine plants
1 16/9/2017 1,6
49 Methods of improving
performance- Intercooler
1 18/9/2017 1,6
50 Regeneration and Reheating 1 20/9/2017 6
51 Applications of Gas-Turbine plant
and Tutorial-IX, Quiz-V
1 21/9/2017
3,4
52 Introduction of Jet Propulsion-
Qualitative treatment of Turbojet,
Turbo Fan
1 23/9/2017
1,6
53 Turboprop, Ramjet, applications 1 25/9/2017 1,6
54 Tutorial-X, Assignment-V 1 27/9/2017 3,4
Number of classes 8
55 Contents beyond syllabus 1 04/10/2017 1
56 Contents beyond syllabus 1 05/10/2017 1
57 Contents beyond syllabus 1 07/10/2017 1,6
58 Contents beyond syllabus 1 09/10/2017 1,6
59 Revison 1 11/10/2017 1
60 Revision 1 12/10/2017 1
61 Revison 1 14/10/2017 1
Total Number of classes 61
Delivery Methods (DM):
1. Chalk & Talk 2. ICT Tools 3. Tutorial 4. Assignment/Test/Quiz
5. Laboratory/Field Visit 6. Web based learning.
Course Instructor Course
Coordinator
Module
Coordinator HOD
Signature
Name of the
Faculty Dr.P.Vijay Kumar A.Naresh Kumar Dr.P.Vijay Kumar Dr.S.Pichi Reddy
1. Pre-requisites:
2. Course Educational Objectives (CEOs): The main objective of this course is to familiarize the steps involved in the
design process of various machine elements.
3. Course Outcomes (COs): At the end of the course, the student will be able to :
CO1 :Formulate and analyze stresses and strains in machine elements and structures
subjected to static loads.
CO2 : Analyze the failure criterion of mechanical parts under fatigue loads.
CO3 : Comprehend the design of permanent joints subjected to various loads.
CO4 : Analyze the temporary joint members subjected to axial and eccentric loads.
CO5 : Design shafts and shaft couplings for various engineering applications.
4. Course Articulation Matrix:
Course
Code
COs Programme Outcomes PSOs
1 2 3 4 5 6 7 8 9 10 11 12 1 2 3
S291
CO1 3 2 3 1 1 3
CO2 3 2 3 1 3
CO3 3 1 3 1 3
CO4 3 1 3 1 3
CO5 3 1 3 1 3
1 = Slight (Low) 2 = Moderate (Medium) 3-Substantial(High)
Department: ME Program: B.Tech
Course : –MACHINE DESIGN-1(S291)
SEM: V Academic Year : 2017-18
LESSON PLAN
5. Course Delivery Plan:
S.NO TOPIC TO BE COVERED No.of Classes
Date DM As per the
Schedule
Taken
UNIT-I
1 Pre requisites, course outcomes and course
objective, syllabus 1 19-06-2017 1
2 Machine Design-Introduction-Basic Procedure 1 20-06-2017 1
3 Design of machine elements, procedure,
design analysis and design synthesis 1
23-06-2017 1
4 Introduction to Indian standards-Selection of
Preferred sizes 1
24-06-2017 1
5 Tutorial-1 1 27-06-2017 3
6 Modes of failure-factor of safety-stress strain
relationship 1
30-06-2017 1
7 Stresses due to bending moment-stresses due
to turning moment-eccentric axial loading 1
01-07-2017 1
8
Introduction to theories of failure, maximum
principle stress maximum shear stress
theories
1
03-07-2017 1
9
Maximum shear stress theory, Distortion
energy theory, Derivation
1
04-07-2017 1
10 Tutorial-2 1 07-07-2017 3
11 Assignment-1/quiz-1 1 10-07-2017 4
No.of classes 11
UNIT-II
12 Stress concentration, factors causing stress
concentration
1
11-07-2017 1,2
13 Theoretical stress concentration factor
,Methods of reducing stress concentration-
1
14-07-2017 1,2
14 Fluctuating stresses, repeated stresses
reversed stresses
1 15-07-2017
1,2
15 Fatigue failure -endurance limit-S-N curve
-
1
17-07-2017 1
16 -low cycle and high cycle fatigue-Notch
sensitivity-fatigue stress concentration factor_
1
-07-2017 1
17 Endurance limit_ approximation method-
Derating factors
1 21-07-2017 1
18 Tutorial-3 1 22-07-2017 3
19 Soderberg and Good man line-explanation 1
24-07-2017 1
20 Modified Goodman line; Gerber curve 1
25-07-2017 1
21 Tutorial-4 1
28-07-2017 3
22 Assignment-2/Quiz-2 1
29-07-2017 4
No.of classes 11
UNIT-III
23 Riveted joints-types- design for strength 1
31-07-2017 1,2
24 Design for strength-efficiency of joint 1
01-08-2017 1
25 Eccentrically loaded riveted joints. 1
04-08-2017 1
26 Eccentrically loaded riveted joints 1 05-08-2017 1
27 Tutorial-5 1 14-08-2017 3
28 Introduction to welded joints-fillet welds and
butt welds- Strength of butt weld
1
18-08-2017 1,2
29 Strength of parallel fillet weld-transverse fillet
weld
1
19-08-2017 1
30 Maximum shear stress in a parallel fillet weld
-Maximum shear stress in a transverse fillet
weld
1
21-08-2017 1
31 Maximum shear stress in a transverse fillet -
Axially loaded unsymmetrical Welded joints
1
22-08-2017 1
32 Axially loaded unsymmetrical welded joints;
Welded joints subjected to bending moment
1
26-08-2017 1
33 Tutorial-6 1 28-08-2017 3
34 Assignment-3/quiz-3 1 29-08-2017 4
No. of classes 12
UNIT-IV
35 Threaded joints; Terminology-bolts of uniform
strength
1 01-09-2017 1,2
36 Ecce1ntrically loaded bolted joints in shear 1 02-09-2017 1
Eccentric load perpendicular to axis of bolt 1 04-09-2017 1
Delivery Methods (DM):
1.Chalk & Talk 2. ICT Tools 3. Tutorial 4. Assignment/Test/Quiz
5. Laboratory/Field Visit 6. Web based learning.
Course
Instructor
Course
Coordinator
Module
Coordinator HOD
Signature
Name of the Faculty G.Kartheek K.V.Viswanath B.Sudheer
Kumar Dr.S.Pichi Reddy
PRINCIPAL
38 Tutorial-7 1 05-09-2017 3
39 Design of square and flat keys-types 1 08-09-2017 1,2
40 Design of Cotter joints 1 11-09-2017 1,2
41 Design of Socket and
Spigot cotter joint 1
12-09-2017 1,2
42 Design of Knuckle joint-Failures 1 15-09-2017 1,2
43 Tutorial-8 1 16-09-2017 3
44 Assignment-4/Quiz-4 1 18-09-2017 4
No. of classes 10
UNIT-V
45 Transmission shafts-introduction-design of
shaft on strength basis
1
19-09-2017 1
46 Design of shaft on strength basis- rigidity
basis
1 22-09-2017 1
47 ASME code of shaft design 1 23-09-2017 1
48 Tutorial-9 1 25-09-2017 3
49 Muff coupling 1 26-09-2017 1,2
50 Clamp coupling 1 29-09-2017 1,2
51 Flange coupling 1 03-10-2017 1,2
52 Bushed pin flexible coupling 1 06-10-2017 1,2
53 Tutorial-10 1 07-10-2017 3
54 Assignment-5 /Quiz-5 1 09-10-2017 4
No. of classes 10
55 Revision 1 10-10-2017 1
56 Beyond the syllabus 1 13-10-2017 1,2
Introduction to fracture mechanics
103
1. Pre-requisites: Engineering Mechanics, Kinematics of machines
2. Course Educational Objectives (CEOs):
The main objective of this course is to familiarize the standard mechanisms
used for speed control and stability control & the effect of dynamics of
undesirable vibrations
3.Course Outcomes (COs): At the end of the course, the student will be able to :
CO1: Characterize the clutches, brakes and dynamometers & Analyze the gyroscopic effects on different vehicles.
CO2: Analyze the dynamic force of slider crank mechanisms and energy storage in the flywheels.
CO3: Analyze the speed regulations in centrifugal governors. CO4: Analyze the balancing of the moving parts statically and dynamically. CO5: Apply the basic concepts of vibrations in various mechanical systems.
4. Course Articulation Matrix:
Course
Code
COs Programme Outcomes PSOs
a b c d e f g h i j k l 1 2 3
S203
CO1 3 2 3 1 3
CO2 3 2 3 1 3
CO3 3 2 3 1 3
CO4 3 2 3 3 1 3
CO5 3 2 3 3 1 3
1 = Slight (Low) 2 = Moderate (Medium) 3-Substantial(High)
Department: MECHANICAL ENGINEERING Program: B.Tech
Course : DYNAMICS OF MACHINES (S203)
SEM: V (A-SEC) Academic Year : 2017-18
LESSON PLAN
5. Course Delivery Plan:
S.NO TOPIC TO BE COVERED
No.of Classes
Tentative
Date DM As per
the Schedule
Taken
UNIT-I
1
Introduction to Dynamics of machines -
Course Educational Objectives (CEO’s) and Course Outcomes (CO’s).
1 19-06-2017 1
2 Introduction to clutches- Single plate
clutch and Multi plate clutch -working 1 21-06-2017 1,2
3
Derivation for frictional torque in single &
multi plate clutch by Uniform pressure
and Uniform wear conditions
1 22-06-2017 1
4 Cone clutch and Centrifugal clutch –
working and derivation 1 24-06-2017 1,2
5 Problems on clutches 1 26-06-2017 1
6 Tutorial-1 1 28-06-2017 3
7 Brakes: Simple block brakes & problems 1 29-06-2017 1,2
8 Band brake & Band and block brakes –
problems 1 01-07-2017 1,2
9 Internal expansion shoe brakes-
derivation 1 03-07-2017 1,2
10 Absorption type dynamometers- working 1 05-07-2017 1,2
11 Transmission type dynamometers –
working 1 06-07-2017 1,2
12 Tutorial-2 1 10-07-2017 3
13 Precession: Gyroscopes and introduction 1 12-07-2017 1,2,5
14 Effect of precession on Aero planes &
ships 1 13-07-2017 1,2,5
15 Effect of precession on the stability of
motor car (four wheeler) 1 15-07-2017 1,2
16 Effect of precession on the stability of
motor cycle (two wheeler) 1 17-07-2017 1,2
17 Assignment/Quiz -1 1 19-07-2017 4
Number of classes 17
UNIT-II
18 Introduction about Turning moment 1 20-07-2017 1,2
19 Angular velocity and acceleration of
piston, connecting rod 1 22-07-2017 1,2
20 Engine force analysis-piston and crank effort & Inertia torque of connecting rod
1 24-07-2017 1
21
Introduction to turning moment
diagrams-single and multi-cylinder
engines
1 26-07-2017 1
22 Tutorial-3 1 27-07-2017 3
23 Problems on single cylinder & multi
cylinder engines 1 29-07-2017 1
24 Fluctuation of energy- Problems 1 31-07-2017 1
25 Fly wheels and their design 1 02-08-2017 1
26 Tutorial-4 1 03-08-2017 3
27 Assignment/Quiz -2 1 05-08-2017 4
Number of classes 10
UNIT-III
28
Governor - introduction, Watt governors
working & Derivation for speed of governor
1 14-08-2017 1,2,5
29 Porter governor working & derivation 1 16-08-2017 1,2
30 Porter governor Problems 1 17-08-2017 1
31 Tutorial-5 1 19-08-2017 3
32 Proell governor working & derivation 1 21-08-2017 1
33 Hartnell governor working & derivation 1 23-08-2017 1,2
34 Hartnell governor Problems 1 24-08-2017 1
35 Tutorial-6 1 26-08-2017 3
36 Sensitiveness, Isochronism and hunting 1 28-08-2017 1
37 Assignment/Quiz -3 1 30-08-2017 4
Number of classes 10
UNIT-IV
38 Introduction to Balancing - Balancing of
rotating masses in single plane 1 31-08-2017 1,2
39 Balancing of several masses rotating in
different planes 1 02-09-2017 1,2
40 Analytical and graphical methods 1 04-09-2017 1
41 Tutorial-7 1 06-09-2017 3
42 Primary, secondary balancing of
reciprocating masses. 1 07-09-2017 1,2
43 Analytical and graphical methods 1 11-09-2017 1
44 Unbalanced forces and couples 1 13-09-2017 1
45 Tutorial-8 1 14-09-2017 3
46
Examination of ‘V’ multi cylinder in line
and radial engines for primary and secondary balancing
1 16-09-2017 1,2
47 Locomotive balancing -Hammer blow,
swaying couple and tractive efforts 1 18-09-2017 1,2
48 Assignment/Quiz -4 1 20-09-2017 3
Number of classes 11
UNIT-V
49 Introduction & Types of Vibrations 1 21-09-2017 1,5
50
Free longitudinal vibrations-
Displacement, velocity & acceleration of
body due to inertia force
1 23-09-2017 1
51 Inertia effect of the mass of spring-
problems 1 25-09-2017 1
52 Derivations & problems 1 27-09-2017 1
53 Tutorial-9 1 28-09-2017 3
54 Damped vibrations 1 04-10-2017 1
55 Forced vibrations & Forced damped vibrations
1 05-10-2017 1,5
56 Tutorial-10 1 07-10-2017 3
57 Vibration isolation and transmissibility &
Whirling speed of shafts 1 09-10-2017 1
58 Assignment/Quiz -5 1 11-10-2017 4
Number of classes 10
59 Beyond Syllabus – vibration measuring instruments & transverse vibrations
1 12-10-2017 5
Total number of classes 59
Delivery Methods (DM):
1. Chalk & Talk 2. ICT Tools 3. Tutorial 4. Assignment/Test/Quiz
5. Laboratory/Field Visit 6. Web based learning.
Course
Instructor
Course
Coordinator Module Coordinator HOD
Signature
Name of the
faculty Ch. Siva Sankara Babu Mr. B. Sudheer Kumar Dr. S.Pichi Reddy
1. Pre-requisites:
2. Course Educational Objectives (CEOs):
In this Course student will learn about-The fundamental concepts and contributions of
management, human resource practices, quality control and project management which plays a
vital role in the organisation, study techniques for increased productivity, human resource
practices and various network techniques.
3. Course Outcomes (COs):
At the end of the course, the student will be able to:
CO1: Apply the fundamental knowledge of management and organization in work environment.
CO2: Analyze different types of plant location and plant layouts.
CO3: Examine the statistical quality control and material management as a process.
CO4: Apply the concepts of HRM and functions of HRM to achieve goals.
CO5: Make use of program evaluation review techniques (PERT) and critical path method for
real time project estimation.
4. Course Articulation Matrix:
Course
Code
COs Programme Outcomes PSOs
1 2 3 4 5 6 7 8 9 10 11 12 1 2 3
S269
CO1 3 1 2 1 3 1 2 1 3
CO2 1 1 1 2 2 1
CO3 1 2 2 2 3 2 1 3
CO4 2 1 1 1 1 3 1 1 1
CO5 3 1 1 1 1 1 1
1 = Slight (Low) 2 = Moderate (Medium) 3-Substantial(High)
Department: MECH - A Program: B.Tech
Course: –Industrial Management (S270)
SEM: V Academic Year: 2017-18
LESSON PLAN
5. Course Delivery Plan:
S.NO TOPIC TO BE COVERED
No. of Classes
Date DM As per the
Schedule Taken
UNIT-1
1 Introduction to Management: Definition 1 6/19/2017 1,2
2 Nature of management 1 6/21/2017 1,2
3 Importance and Functions of Management 1 6/22/2017 1,2
4 Evolution of management thought 1 6/24/2017 1,2
5 Taylor’s Scientific Management Theory 1 6/28/2017 1,2
6 Fayol’s Principles of Management 1 6/29/2017 1,2
7 Fayol’s Principles of Management cntd.. 1 7/1/2017 1,2
8 Contribution of Elton Mayo 1 7/3/2017 1,2
9 Contribution of Maslow 1 7/5/2017 1,2
10 Contribution of Herzberg 1 7/6/2017 1,2
11
Contribution of Douglas Mc Gregor,
Modern management 1 7/10/2017 1,2
12
Basic concepts of Organization, Authority,
Responsibility, Delegation of Authority 1 7/12/2017 1,2
13
Span of Control, Departmentation and
Decentralization 1 7/13/2017 1,2
14
Organization Structures: Line
organization,functional organization 1 7/15/2017 1,2
15
Line and staff organization, Committee
organization 1 7/17/2017 1,2
16
Matrix organization, review of
oraganisation structure 1 7/19/2017 1,2
Number of classes 16
UNIT-II
17 Introduction To Operations Management 1 7/20/2017 1,2
18 Plant Location, Factors influencing location 1 7/22/2017 1,2
19 Principles of Plant Layouts 1 7/24/2017 1,2
20 Types of Plant Layouts 1 7/26/2017 1,2
21
Methods of production: batch and Mass
Production 1 7/27/2017 1,2
22 Methods of production: Job Production 1 7/29/2017 1,2
23 Work Study 1 7/31/2017 1,2
24 Basic procedure involved in Method Study 1 8/2/2017 1,2
25 Work Measurement 1 8/3/2017 1,2
26 Problems 1 8/5/2017 1,2
Number of classes 10
27
MID-1
8/7/2017
28 8/9/2017
29 8/10/2017
30 8/12/2017
UNIT-III
31 Introduction to Quality Management 1 8/14/2017 1,2
32
Statistical Quality Control-Meaning, Basics variables and
attributes 1 8/16/2017 1,2
33 Control charts: X chart, R chart, 1 8/17/2017 1,2
34 Control charts: C chart, P chart 1 8/19/2017 1,2
35 Acceptance Sampling and Sampling plans 1 8/21/2017 1,2
36 Deming’s contribution to quality 1 8/23/2017 1,2
37 Introduction to Materials Management-Objectives 1 8/24/2017 1,2
38 Need for Inventory control, Purchase Procedure 1 8/26/2017 1,2
39 Store records and its types EOQ 1 8/28/2017 1,2
40 ABC Analysis 1 8/30/2017 1,2
41 problems 1 8/31/2017 1,2
42 stock levels 1 9/4/2017 1,2
Number of classes 12
UNIT-IV
43 Introduction to Human Resource Management 1 9/6/2017 1,2
44 Concepts of HRM, Basic functions of HR Manager 1 9/7/2017 1,2
45 Manpower planning 1 9/9/2017 1,2
46 Recruitment, Selection 1 9/11/2017 1,2
47 Training and Development, Placement 1 9/13/2017 1,2
48 Wage and Salary Administration 1 9/14/2017 1,2
49 Promotion, Transfer, Separation 1 9/16/2017 1,2
50 Performance Appraisal 1 9/18/2017 1,2
51 Job Evaluation and Merit Rating 1 9/20/2017 1,2
52 Revision 1 9/21/2017 1,2
Number of classes 10
UNIT-V
53 UNIT: V: Introduction to Project management 1 9/23/2017 1,2
54 Early techniques in Project Management 1 9/25/2017 1,2
55 Rules to draw network diagram and types of activities 1 9/27/2017 1,2
56 problems 1 9/28/2017 1,2
57 Critical Path Method (CPM):identifying critical path 1 9/30/2017 1,2
58 problems 1 10/4/2017 1,2
59 Project Evaluation and Review Technique (PERT) 1 10/5/2017 1,2
60 Probability of Completing the project within given time 1 10/7/2017 1,2
61 Problems 1 10/9/2017 1,2
62 Project Cost Analysis 1 10/11/2017 1,2
63 Project Crashing, Problems 1 10/12/2017 1,2
64
1
10/14/2017 1,2
Number of classes 12
65
MID-II
10/16/2017
66 10/17/2017
67 10/17/2017
68 10/19/2017
Total number of classes 60
Delivery Methods (DM):
1. Chalk & Talk 2. PPT 3. Tutorial 4. Assignment/Test/Quiz
Course Instructor Course Coordinator Module Coordinator HOD
Signature
Name of the
Faculty
1. Pre-requisites: Basic concepts of Engineering Drawing, Production Technology, Materials and Metallurgy.
2. Course Educational Objectives (CEOs):
To enable the learners to gain knowledge about metal cutting operation, tool nomenclature, tool geometry
and the various operations performed on machine tools for manufacturing of engineering objects to produce the
desired shape, size, accuracy; finish etc. and also students able to understand the basic concepts of Jigs and fixtures
designs.
3. Course Outcomes (COs): At the end of the course, the student will be able to :
CO1: Comprehend the basic principles of metal cutting and analyze the forces in machining.
CO2: Understand detailed working and applications of lathe
CO3: Comprehend the detailed working principle and applications on shaper, slotter, planar, drilling and boring
machines
CO4: Relate the knowledge of milling and grinding operations with manufacturing industry
CO5: Identify various kinds of finishing processes and different kinds of holding and guiding mechanisms.
4. Course Articulation Matrix:
Course
Code
COs Programme Outcomes PSOs
a b c d e f g h i j k l 1 2 3
S308
CO1 3 3 2 3 3 1
3 3 3
CO2 3 1 2 1 2 3 1
3 3 2
CO3 3 1 2 1 3 1
3 3 2
CO4 3 1 2 2 3 1
3 3 2
CO5 3 1 2 1 1 3 1
3 3 1
1 = Slight (Low) 2 = Moderate (Medium) 3-Substantial(High)
5. Course Delivery Plan:
S.NO TOPIC TO BE COVERED No.of Classes
Date DM As per
the
Schedule
Taken
Unit-1
1 Metal cutting and Machine tools, COs and POs PEOs 1 20/6/2017 DM1/DM6
2 Introduction, Classification of Machine tools 1 21/6/2017 DM1/DM6
3 Basic elements of Metal cutting, Methods of Metal
Cutting
1 23/6/2017 DM1/DM6
4 Classification of Cutting Tools 1 24/6/2017 DM1/DM6
5 Cutting tool materials 1 27/6/2017 DM1/DM6
6 Geometry of Single Point Cutting Tool 1 28/6/2017 DM1/DM6
7 Mechanism of Metal cutting 1 30/6/2017 DM1/DM6
8 Types of chips and Chip breakers 1 1/7/2017 DM1/DM6
9 measurement of chip thickness ratio, shear angle 1 4/7/2017 DM1/DM6
Department: Mechanical Program: UG (B.Tech)
Course: S308 Metal Cutting and Machine Tools
SEM: V (Section – A) Academic Year: 2017-18
LESSON PLAN
10 Tutorial - I 1 5/7/2017 DM2 / DM4
11 measurement of cutting forces, velocity diagrams 1 7/7/2017 DM1/DM6
12 Merchant’s Force diagram 1 8/7/2017 DM1/DM6
13 Numericals 1 11/7/2017 DM1/DM6
14 Machining parameters - Tool Life, related problems 1 12/7/2017 DM1/DM6
15 Work done in cutting. Metal cutting theories 1 14/7/2017 DM1/DM6
16 Tool Failure 1 15/7/2017 DM1/DM6
17 Cutting fluids 1 18/7/2017 DM1/DM6
18 Tutorial – II, Quiz – I, Assignment - I 1 19/7/2017 DM2 / DM4
Number of classes 18
Unit-II
19 Introduction, Principle of working 1 21/7/2017 DM1/DM6
20 Specification of lathe, classification of Lathes 1 22/7/2017 DM1/DM6
21 Lathe accessories, Tool holding, 1 25/7/2017 DM1/DM6
22 Work holding and Special attachments 1 26/7/2017 DM1/DM6
23 Lathe Operations, Tutorial – III 1 28/7/2017 DM2 / DM4/
DM6 24 Taper turning methods, Thread turning methodology 1 29/7/2017 DM1/DM6
25 Turret and Capstan Lathes: Introduction 1 1/8/2017 DM1/DM6
26 Principle of working -Collet chucks 1 2/8/2017 DM1/DM6
27 Other work and tool holding devices 1 4/8/2017 DM1/DM6
28 Box and tool layout, Assignment – II, Quiz-II 1 5/8/2017
DM2 / DM4/
DM6
Number of classes 10
I MID EXAMINATIONS (7/8/2017-12/8/2017)
Unit-III
29 Introduction to reciprocating machines, Planning 1 14/8/2017 DM1/DM6
30 Principles of working – Principal parts, Specification 1 18/8/2017 DM1/DM6
31 classification 1 19/8/2017 DM1/DM6
32 Operations performed, Machining time calculations 1 22/8/2017 DM1/DM6
33 Numericals 1 23/8/2017 DM1/DM6
34 Tutorial - IV 1 26/8/2017 DM2 / DM4
35 Drilling and Boring Machines : Introduction 1 29/8/2017 DM1/DM6
36 Principles of working – Principal parts, Specification 1 30/8/2017 DM1/DM6
37 Types of drilling machines, boring machines 1 1/9/2017 DM1/DM6
38 operations performed 1 5/9/2017 DM1/DM6
39 Tool holding devices, Twist drill 1 6/9/2017 DM1/DM6
40 Boring machines, Fine boring machines 1 8/9/2017 DM1/DM6
41 Deep hole drilling machine 1 9/9/2017 DM1/DM6
42 Tutorial – V, Assignment – III, Quiz-III 1 12/9/2017
DM2 / DM4
Number of classes 14
Unit-IV
43 Principle of working – Specifications 1 13/9/2017 DM1/DM6
44 Classifications of milling machines, Principal features of
horizontal, vertical and universal milling machines
1 15/9/2017 DM1/DM6
45 Methods of operations, various types of operations 1 16/9/2017 DM1/DM6
46 Geometry of milling cutters 1 19/9/2017 DM1/DM6
47 Types of Milling cutters 1 20/9/2017 DM1/DM6
48 Methods of indexing – Accessories to milling machines 1 22/9/2017 DM1/DM6
49 Tutorial – VI, Assignment – IV, Grinding Machines:
Introduction,
1 23/9/2017 DM2 / DM4/DM6
50 Fundamentals – Theory of grinding, Classification of
grinding machine
1 26/9/2017 DM1/DM6
51 Grinding wheel description, Types of Abrasive materials
and signatures
1 27/9/2017 DM1/DM6
52 Cylindrical and surface grinding machine 1 29/9/2017 DM1/DM6
53 Tool and cutter grinding machine 1 3/10/2017 DM1/DM6
54 special types of grinding machines, Quiz-IV 1 4/10/2017 DM2 / DM4/DM6
Number of classes 12
Unit-IV
55 Introduction to super finishing processes, Types 1 6/10/2017 DM1/DM6
56 Working Principle, Comparison to grinding – lapping and
honing
1 7/10/2017 DM1/DM6
57 Constructional features, Speed, Feed, DC and M/C 1 10/10/2017 DM1/DM6
58 Tutorial - VII and Assignment – V 1 11/10/2017 DM2 / DM4/DM6
59 Definitions of Jig and Fixture, comparisons and
classifications, Principles of design of Jigs and fixtures
1 13/10/2017 DM1/DM6
60 Types of clamping & work holding devices. Typical
examples of jigs and fixtures, Tutorial - XIV , Quiz – V,
Assignment - VI
1
14/10/2017 DM1/DM6
II MID EXAMINATIONS (16/10/2017-21/10/2017)
Number of classes 6
Total Number of classes 60
Delivery Methods (DM):
NOTE: DELIVERY METHODS (DM):
DM1: Lecture interspersed with discussions/BB DM2: Tutorial
DM3: Lecture with a Quiz DM4: Assignment/Test
DM5: Demonstration (laboratory, field visit) DM6: Presentations/PPT
Course
Instructor
Course
Coordinator
Module
Coordinator HOD
Signature
Name of the Faculty Dr.Murahari
Kolli
Dr.Murahari
Kolli
Mr.J.Subba
Rao Dr. Pichi Reddy
1. PRE-REQUISITES:-Basic Management Principles, Engineering Mathematics
2.COURSE EDUCATIONAL OBJECTIVES (CEOs):
The objective of this course is to introduce the concepts of formulating an engineering problem
into a mathematical model to develop an optimal solution.
3.COURSE OUTCOMES (COs):
After completion of the course student will be able to:
CO 1: Apply linear programming approach for optimizing the objectives of industrial oriented
problems.
CO 2: Formulate and solve Transportation Models and assignment Models
CO 3: Implement the strategies in competitive situations and Identify the replacement period
of the equipment.
CO 4: Analyze the waiting situations in an organization.
CO 5: Determine the optimum inventory level and resolve the complex problem into simple
problems by dynamic programming approach and apply optimum strategies.
4. Course Articulation Matrix:
Course
Code COs
Programme Outcomes PSOs
a b c d e f g h i j k l 1 2 3
S329
CO1 3 3 3 2 3 3 3 3
CO2 3 3 1 2 1 3 3 3
CO3 3 3 3 2 1 3 3 3
CO4 3 2 3 2 3 1 3 3
CO5 2 3 3 2 1 1 3 3
1 = Slightly correlated (Low) 2 = Moderately correlated (Medium) 3-Substantially correlated (High)
5.Course Delivery Plan:
Name:J Subba Reddy, Associate Professor Course: V-Sem (III yr B.Tech) Section: A
S.NO TOPIC TO BE COVERED
No. of Classes
Date DM As per the Schedule
Taken
UNIT – I : INTRODUCTION to OR, LINEAR PROGRAMMING PROBLEM
1 INTRODUCTION: Introduction to Operations Research
1 20-06-2017 DM 1
2 operations research models, applications 1 22-06-2017 DM 1
3 Linear Programming Problem (LPP): Linear Programming Problem Formulation
1 23-06-2017 DM 1
4 Numericals 1 24-06-2017 DM 1
5 Tutorial I, Quiz I 1 27-06-2017 DM2 /DM4
6 LPP: Graphical Method, Numericals 1 29-06-2017 DM 1
7 Graphical solution for Special Cases of LPP 1 30-06-2017 DM 1
8 Simplex Method, Numericals 1 01-07-2017 DM 1
Department: MECH Program: B.Tech
Course: OPERATIONS RESEARCH(S329)
SEM: V-A sec Academic Year: 2017-18
LESSON PLAN
9 Numericals 1 04-07-2017 DM 1
10 Big M Method (Artificial Variable Technique) 1 06-07-2017 DM 1
11 Numericals 1 07-07-2017 DM 1
12 Two Phase Simplex Method (Artificial Variable Technique)
1 08-07-2017 DM 1
13 Tutorial II, Quiz II 1 11-07-2017 DM2 /DM4
14 Numericals 1 13-07-2017 DM 1
15 Duality Principle 1 14-07-2017 DM 1
16 Numericals 1 15-07-2017 DM 1
17 Tutorial III, Quiz III 1
18-07-2017 DM2 /DM4
Number of classes 17
UNIT-II
18 TRANSPORTATION PROBLEM (TP) : Introduction to TP, Terminology, Formulation
1 20-07-2017 DM 1
19 Standard form, Unbalanced T P, Numericals 1 21-07-2017 DM 1
20 Initial Basic Feasible Solution to TP: North West Corner Method, Least Cost Entry Method, Vogel’s Approximation Method (VAM)
1 22-07-2017 DM 1
21 Tutorial IV, Quiz IV 1 25-07-2017 DM2 /DM4
22 Test for Optimality: Stepping Stone Method, Modified Distribution Method (MODI Method)
1 27-07-2017 DM 1
23 Numericals 1 28-07-2017 DM 1
24 Degeneracy in TP, Numericals 1 29-07-2017 DM 1
25 ASSIGNMENT PROBLEM (AP):Introduction to AP, Terminology; Tutorial V, Quiz V
1 01-08-2017 DM1, DM2 /DM4
26 Variants of Assignment Problem 1 03-08-2017 DM 1
27 Optimal Solution, Numericals 1 04-08-2017 DM 1
28 Travelling Salesmen Problem, Numericals 1
05-08-2017 DM 1
Number of classes 11
29
MID-I
08-08-2017
30
10-08-2017
31
11-08-2017
32
12-08-2017
UNIT-III
33 GAMES THEORY: Introduction to Games Theory, Terminology
1 17-08-2017 DM 1
34 Minimax or Maxmini Criterion, Optimal Strategy 1 18-08-2017 DM 1
35 Solution of games with saddle point 1 19-08-2017 DM 1
36 Tutorial VI, Quiz VI 1 22-08-2017 DM2 /DM4
37 Rectangular games without saddle point, Numericals
1 24-08-2017 DM 1
38 mx2, 2xn, mxn games, Dominance Principle, Numericals
1 25-08-2017 DM 1
39 Graphical approach, Numericals 1 26-08-2017 DM 1
40 Tutorial VII, Quiz VII 1 29-08-2017 DM2 /DM4
41
THEORY OF REPLACEMENT: Introduction, Replacement of Equipment that Deteriorates Gradually, Numericals
1 31-08-2017 DM 1
42 Replacement of Equipment that fails 1 01-09-2017 DM 1
suddenly, Numericals
43 Group Replacement Policy, Numericals 1 02-09-2017 1
44 Tutorial VIII, Quiz VIII 1 05-09-2017 DM2 /DM4
Number of classes 12
UNIT-IV
45 WAITING LINES: Introduction to Queuing Theory
1 07-09-2017 DM 1
46
Single Channel – Poisson arrivals – exponential service times – with infinite population, Derivation, Numericals
1 08-09-2017 DM 1
47
Single Channel – Poisson arrivals – exponential service times – with finite population, Numericals
1 09-09-2017 DM 1
48 Tutorial IX, Quiz IX 1 12-09-2017 DM2 /DM4
49
INVENTORY MODELS: Introduction to Inventory, Inventory control, Terminology, Economic Order Quantity (EOQ), Numericals
1 14-09-2017 DM 1
50
Deterministic models –– Instantaneous production, finite production, continuous demand, no set up cost, shortages are not allowed, Derivation, Numericals
1 15-09-2017 DM 1
51 Purchase inventory models with one price break and multiple price breaks, Numericals
1 16-09-2017 DM 1
52 Tutorial X, Quiz X 1 19-09-2017 DM2 /DM4
53 Numericals 1 21-09-2017 DM 1
Number of classes 09
UNIT-V
54 DYNAMIC PROGRAMMING (DP): Introduction to DP
1 22-09-2017 DM 1
55 Bellman’s Principle of Optimality, Applications of Dynamic Programming
1 23-09-2017 DM 1
56 Tutorial XI, Quiz XI 1 26-09-2017 DM2 /DM4
57 Capital Budgeting Problem, Numericals 1 28-09-2017 DM 1
58 Shortest Path Problem, Numericals 1 29-09-2017 DM 1
59 Linear Programming Problem, Numericals 1 30-09-2017 DM 1
60 Tutorial XII, Quiz XII 1 03-10-2017 DM2 /DM4
61 INTRODUCTION TO OPTIMIZATION: Introduction 1 05-10-2017 DM 1
62 Engineering Applications of Optimization 1 06-10-2017 DM 1
63
Problem Statement, Design Vector, Design Constraints, Constraints Surface, Objective Function, Objective Function Surfaces, Numericals
1 07-10-2017
DM 1
64 Tutorial XIII, Quiz XIII 1 10-10-2017 DM2 /DM4
65 Classification of Optimization Problems 1
12-10-2017 DM 1
66 Optimization Techniques: Introduction, Single Variable Optimization
1
13-10-2017 DM 1
67 Numericals 1
14-10-2017 DM 1
Number of classes 14
68
17-10-2017
69 MID-II
19-10-2017
70
20-10-2017
71
21-10-2017
Total number of classes 71
Delivery Methods (DM): DM1: Lecture interspersed with discussions/BB
DM4: Assignment/Test
DM2: Tutorial
DM5: Demonstration (laboratory, field visit)
DM3: Lecture with a Quiz
DM6: Presentations/PPT
Course Instructor Course
Coordinator
Module
Coordinator
Programme
Coordinator HOD
Signature
Name of the
Faculty J. Subba Reddy B. Chaitanya J. Subba Reddy Dr. P. Ravindra Kumar Dr. S. Pichi Reddy
1. Pre-requisites: Thermodynamics
2. Course Educational Objectives (CEOs):
To understand the engine working principles and to know the environmental and fuel economy
challenges facing the internal combustion engine. To understand the gas turbine and jet
propulsion and rocket theory.
3. Course Outcomes (COs): At the end of the course, the student will be able to
:
CO1: Identify various components and functioning of IC Engines, Gas-turbines and
Jet-propulsion systems.
CO2: Analyze the behaviour of IC Engines and Gas-turbines using Air/fuel, Air-
standard, Actual and Brayton cycles.
CO3: Test the performance of IC engines and gas turbines through thermodynamic
cycles.
CO4: Analyze combustion characteristics and select different combustion chambers for
IC engines.
CO5: Comprehend the need of cooling, lubrication, ignition and fuel supply systems
for efficient operation of IC engines.
4. Course Articulation Matrix:
Course
Code
COs Programme Outcomes PSOs
1 2 3 4 5 6 7 8 9 10 11 12 1 2 3
T267
CO1 1 1 2 1 3 2 3 1 2
CO2 3 3 1 2 3 3 1 2
CO3 3 1 2 1 2 3 1 2
CO4 1 1 3 2 2 3 1 2
CO5 3 2 1 1 2 3 1 2
1 = Slight (Low) 2 = Moderate (Medium) 3-Substantial(High)
Department: Mechanical Program: B.Tech
Course: –IC Engines and Gas Turbines (T267)
SEM: V –B sec Academic Year: 2017-18
LESSON PLAN
5. Course Delivery Plan:
S.NO TOPIC TO BE COVERED No.of Classes
Date DM As per the
Schedule
Taken
UNIT-I
1 Introduction to IC Engines &
classification of IC Engines
1 19-06-17 5
2 Basic Engine components and
Nomenclature 1 21-06-17 1,5
3 Working principles of Four stroke
SI and CI Engines 1 23-06-17 1,5
4 Working principles of Two stroke
SI and CI Engines & Tutorial-I 1 24-06-17 3
5 Valve Timing diagrams for Four
stroke Engines 1 28-06-17 1,5
6 Port timing diagrams for Two
stroke engines & Applications of IC
Engines
1
30-06-17 1,5
7 Layout of Fuel supply system for SI
Engine-Simple Carburettor 1
01-07-17 6
8 Fuel supply system for CI Engine-Solid Injection-Individual pump
type-Common rail type only
1
03-07-17 1
9 Tutorial-II 1 05-07-17 3
Number of classes 9
UNIT-II
10 Air-standard cycles: Carnot cycle 1 07-07-17 1
11 Otto cycle & its analysis 1 10-07-17 1
12 Diesel ,Dual cycle & its analysis 1 12-07-17 1
13 Atkinson , Stirling , Ericson Cycles 1 14-07-17 1
14 Brayton cycle and its analysis 1 15-07-17 1
15 Problems on Otto, Diesel and Dual
cycles 1 17-07-17 1
16 Problems on Brayton cycle and
Tutorial-III 1
19-07-17 3
17 Fuel-air cycles and their
significance, composition of
cylinder gases
1
21-07-17 1
18 Dissociation, comparison of air-
standard and fuel-air cycles.
1 22-07-17 1
19 Comparison of air-standard
and actual cycles, time loss factor 1
24-07-17 1
20
Heat loss factor, exhaust blow
down, loss due to rubbing
Friction, actual and fuel-air cycles
of engines.
1
26-07-17 1
21 Cooling systems, Air cooling, Water
cooling, Comparison, Radiators
and cooling fans
1
28-07-17 1,6
22 Lubricating systems, Mist
lubrication, Wet sump lubrication, and Dry sump lubrication system
1
29-07-17 1,6
23 Ignition systems- Battery, Magneto
Ignition systems 1
31-07-17 1,6
24 Electronic Ignition system 1 02-08-17 1,6
25 Tutorial-IV 1 04-08-17 3
Number of classes 16
Unit-III
26 Introduction, Homogeneous and
Heterogeneous mixture, stages of
combustion in SI engines
1
05-08-17 1
27 Flame front propagation, factors
influencing the flame speed
1 14-08-17 1
28 Abnormal combustion,
phenomenon of knock in SI
engines
1
16-08-17 1,6
29 Effect of engine variables on knock 18-08-17 1,6
30 Combustion chambers for SI
engines- Fuel requirement and fuel
rating
1
19-08-17 6
31 Tutorial-V 1 21-08-17 3
32 Stages of combustion in CI
engines, factors affecting the delay
period
1
23-08-17 1
33 Phenomenon of knock in CI
engines, comparison of knock
in SI and CI engines
1
26-08-17 6
34 Combustion Chambers for CI
engines-I
1 28-08-17 6
35 Combustion Chambers for CI
engines-II and Fuel requirement,
fuel rating
1
30-08-17 1,6
36 Tutorial-VI 1 01-09-17 3
Number of classes 11
UNIT-IV
37 Introduction, Parameters of
performance- Measurement of Fuel
consumption, Air intake
1
04-09-17 1
38 Measurement of Brake power, Determination of Frictional
power and Indicated power
1 06-09-17 1,5
39 Performance tests & Performance
Characteristic Curves
1 08-09-17 1,5
40 Heat Balance sheet and Tutorial-
VII
1 11-09-17 5,3
41 Problems on Engine performance-I 1 13-09-17 1
42 Problems on Engine performance-II 1 15-09-17 1
43 Problems on Morse Test 1 16-09-17 1
44 Problems on Heat Balance sheet-I 1 18-09-17 1
45 Problems on Heat Balance sheet-II 20-09-17 1
46 Tutorial-VIII 1 22-09-17 3
Number of classes 10
UNIT-V
47 Gas turbine plant and Its
Components, Classification
23-09-17 6
48 Analysis of Closed and Open cycle
Gas Turbine plants
25-09-17 1,6
49 Methods of improving
performance- Intercooler
27-09-17 1,6
50 Regeneration and Reheating 02-10-17 6
51 Applications of Gas-Turbine plant
and Tutorial-IX
04-10-17 3
52 Introduction of Jet Propulsion-
Qualitative treatment of Turbojet, Turbo Fan
06-10-17 1,6
53 Turboprop, Ramjet, applications 07-10-17 1,6
54 Tutorial-X 09-10-17 3
Number of classes 8
55 Contents beyond syllabus 11-10-17
56 Revision 13-10-17
Total Number of classes 56
Delivery Methods (DM):
1. Chalk & Talk 2. ICT Tools 3. Tutorial 4. Assignment/Test/Quiz
5. Laboratory/Field Visit 6. Web based learning.
Course
Instructor
Course
Coordinator
Module
Coordinator HOD
Signature
Name of the
Faculty A.Naresh Kumar A.Naresh Kumar Dr.P.Vijay Kumar Dr.S.Pichi Reddy
1. Pre-requisites: Engineering Mechanics, Mechanics of Materials
2. Course Educational Objectives (CEOs):
The main objective of this course is to familiarize the steps involved
in the design process of various machine elements.
3. Course Outcomes (COs): At the end of the course, the student will be able to :
CO1 : Formulate and analyze stresses and strains in machine elements and structures subjected
to static loads.
CO2 : Analyze the failure criterion of mechanical parts under fatigue loads.
CO3 : Comprehend the design of permanent joints subjected to various loads.
CO4: Analyze the temporary joint members subjected to axial and eccentric loads
CO5 : Design shafts and shaft couplings for various engineering applications
4. Course Articulation Matrix:
Course
Code
COs Programme Outcomes PSOs
1 2 3 4 5 6 7 8 9 10 11 12 1 2 3
S 291
CO1 3 2 3 1 3
CO2 3 2 3 1 3
CO3 3 1 3 1 3
CO4 3 1 3 1 3
CO5 3 1 3 1 3
1 = Slight (Low) 2 = Moderate (Medium) 3-Substantial(High)
Department: Mechanical Engineering Program: B.Tech
Course : Machine Design-I (S291)
SEM: V (B Section) Academic Year : 2017-18
LESSON PLAN
5.Course Delivery Plan:
S.NO TOPIC TO BE COVERED No.of Classes
Date DM As per the
Schedule
Taken
Unit-1
1 Design - Introduction 1 21/06/2017 1,2
2 Machine Design-Introduction&
Basic Procedure
1 22/06/2017 1,2
3 Basic requirements of machine
elements and Design of Machine
Elements
1 23/06/2017 1,2
4 Design analysis-Design synthesis
Introduction to Indian standards
Introduction to Indian standards-
Introduction to Indian standards-
1 24/06/2017 1,2
5 Selection of Preferred sizes & Modes
of failure – Factor of safety
1 28/06/2017 1,2
6 Stress-strain relationship, Shear stress
and shear strain, Stresses due to
bending moment
1
29/06/2017 1,2
7 Stresses due to torsional moment
Eccentric axial loading
1 30/06/2017 1,2
8 Tutorial-1 1 01/07/2017 3
9 Theories of elastic failure –
Introduction and principal stresses
1 05/07/2017 1
10 Maximum principal stress theory 1 06/07/2017 1
11 Maximum Shear stress theory 1 07/07/2017 1
12 Distortion energy theory 1 12/07/2017 1
13 Tuttorial-2 & Quiz-1 1 13/07/2017 3,4
Number of classes 13
---------------
Unit-II
14 Stress concentration -
Stress concentration factors
1 14/07/2017 1,2
15 Reduction of stress concentration
Fluctuating stresses - Fatigue failure
1 15/07/2017 1,2
16 Endurance limit –
Low cycle and high cycle fatigue-
Notch sensitivity
1
19/07/2017 1,2
17 Endurance limit - Approximate
estimation & Introduction to reversed
stresses
1
20/07/2017 1,2
18 Reversed stresses and Design for
infinite life
1 21/07/2017 1
19 Tutorial-1 1 22/07/2017 3
20 Soderberg and Goodman lines-
Modified Goodman line
1
26/07/2017 1
21 Infinite Life Problems under
fluctuating loads
1 27/07/2017 1
22 Infinite Life Problems under
fluctuating loads
1 28/07/2017 1
23 Gerber equation and Fatigue design
under combined stresses
1
29/07/2017 1
24 Fatigue design under combined
stresses
1 02/08/2017 1
25 Tutorial-4 & Quiz-2 1 03/08/2017 3,4
Number of classes 12 ----------------
Unit-III
26 Types of riveted joint-Types of
failures
1
04/08/2017 1,2
27 Strength equation, Efficiency of
riveted joint
1 05/08/2017 1,2
28 Eccentrically loaded riveted joints 1 16/08/2017 1
29 Eccentrically loaded riveted joints-
Poblems
1 17/08/2017 1
30 Tutorial-5 1 18/08/2017 3
31 Introduction to welding joints
Butt joints-Fillet joints
1 19/08/2017 1,2
32 Strength of butt welds- Strength of
parallel fillet welds
1 23/08/2017 1,2
33 Strength of transverse fillet welds
Maximum shear stress in parallel
fillet welds
1
24/08/2017 1
34 Maximum shear stress in transverse
fillet welds
1 26/08/2017 1
35 Axially loaded unsymmetrical
Welded joints
1 30/08/2017 1
36 Welded joint subjected to bending
moment
1 31/08/2017 1
37 Tutorial-6 & Quiz-3 1 01/09/2017 3,4
Number of classes 12 ----------------
Unit-IV
38 Threaded joints -Terminology of
screw threads and Bolted joints
1 06/09/2017 1,2
39 Eccentrically loaded bolted joints in
shear
1 07/09/2017 1
40 Eccentrically loaded bolted joints in
shear
1 08/09/2017 1
41 Eccentric load perpendicular to axis
of bolt
1 09/09/2017 1
42 Bolts of uniform strength 1 13/09/2017 6
43 Tutorial-7 1 14/09/2017 3
44 Design of square and flat keys-types,
Design of Socket and
Spigot cotter joint
1 15/09/2017 1,2
45 Design of Cotter joints 1 16/09/2017 1,2
46 Design of Knuckle joint-Failures 1 20/09/2017 1,2
47 Tutorial-8 & Quiz-4 1 21/09/2017 3,4
Number of classes 10 ---------------
Unit-V
48 Introduction to transmission shafts
Shaft design on strength basis
1 22/09/2017 1,2
49 Shaft design on strength basis 1 23/09/2017 1,2
50 Shaft design on torsional rigidity
basis
1 27/09/2017 1
51 ASME code for shaft design 1 28/09/2017 1
52 Design of hollow shaft on strength
and torsional rigidity basis
1 29/09/2017 1
53 Design of hollow shaft on strength
and torsional rigidity basis
1 04/10/2017 1
54 Tutorial-9 1 05/10/2017 3
55 Flange coupling- Muff coupling 1 06/10/2017 1,2
56 Clamp coupling 1 07/10/2017 1,2
57 Bushed pin flexible coupling 1 11/10/2017 1,2
58 Tutorial-10 & Quiz-5 1 12/10/2017 1,2
Number of classes 11 ----------------
Beyond the syllabus
59 Introduction to product design and
Development
1 13/10/2017 2
60 Design for Manufacturing and
Assembly
1 14/10/2017 2
TOTAL NUMBER OF CLASSES 60 ---------------
Delivery Methods (DM):
1.Chalk & Talk 2. ICT Tools 3. Tutorial 4. Assignment/Test/Quiz
5. Laboratory/Field Visit 6. Web based learning.
Course
Instructor
Course
Coordinator
Module
Coordinator HOD
Signature
Name of the
Faculty V.VENKATESU K.V.VISWANADH
B.SUDHEER
KUMAR Dr. S.PICHI REDDY
6. Pre-requisites: Engineering Mechanics, Kinematics of machines
7. Course Educational Objectives (CEOs):
The main objective of this course is to familiarize the standard mechanisms
used for speed control and stability control & the effect of dynamics of
undesirable vibrations
8. Course Outcomes (COs): At the end of the course, the student will be able to :
CO1: Characterize the clutches, brakes and dynamometers & Analyze the gyroscopic effects on different vehicles.
CO2: Analyze the dynamic force of slider crank mechanisms and energy storage in the flywheels.
CO3: Analyze the speed regulations in centrifugal governors. CO4: Analyze the balancing of the moving parts statically and dynamically. CO5: Apply the basic concepts of vibrations in various mechanical systems.
4. Course Articulation Matrix:
Course
Code
COs Programme Outcomes PSOs
a b c d e f g h i j k l 1 2 3
S203
CO1 3 2 3 1 3
CO2 3 2 3 1 3
CO3 3 2 3 1 3
CO4 3 2 3 3 1 3
CO5 3 2 3 3 1 3
1 = Slight (Low) 2 = Moderate (Medium) 3-Substantial(High)
6. Course Delivery Plan:
S.NO TOPIC TO BE COVERED
No.of Classes
Tentative
Date DM As per
the
Schedule
Taken
UNIT-I
1
Introduction to Dynamics of machines -
Course Educational Objectives (CEO’s) and Course Outcomes (CO’s).
1 20-06-2017 1
2 Introduction to clutches- Single plate
clutch and Multi plate clutch -working 1 21-06-2017 1,2
Department: MECHANICAL ENGINEERING Program: B.Tech
Course : DYNAMICS OF MACHINES (S203)
SEM: V (B-SEC) Academic Year : 2017-18
LESSON PLAN
3
Derivation for frictional torque in single &
multi plate clutch by Uniform pressure
and Uniform wear conditions
1 23-06-2017 1
4 Cone clutch and Centrifugal clutch –
working and derivation 1 24-06-2017 1,2
5 Problems on clutches 1 27-06-2017 1
6 Tutorial-1 1 28-06-2017 3
7 Brakes: Simple block brakes & problems 1 30-06-2017 1,2
8 Band brake & Band and block brakes –
problems 1 01-07-2017 1,2
9 Internal expansion shoe brakes-
derivation 1 04-07-2017 1,2
10 Absorption type dynamometers- working 1 05-07-2017 1,2
11 Transmission type dynamometers –working
1 07-07-2017 1,2
12 Tutorial-2 1 11-07-2017 3
13 Precession: Gyroscopes and introduction 1 12-07-2017 1,2,5
14 Effect of precession on Aero planes &
ships 1 14-07-2017 1,2,5
15 Effect of precession on the stability of
motor car (four wheeler) 1 15-07-2017 1,2
16 Effect of precession on the stability of
motor cycle (two wheeler) 1 18-07-2017 1,2
17 Assignment/Quiz -1 1 19-07-2017 4
Number of classes 17
UNIT-II
18 Introduction about Turning moment 1 21-07-2017 1,2
19 Angular velocity and acceleration of
piston, connecting rod 1 22-07-2017 1,2
20 Engine force analysis-piston and crank effort & Inertia torque of connecting rod
1 25-07-2017 1
21
Introduction to turning moment
diagrams-single and multi-cylinder
engines
1 26-07-2017 1
22 Tutorial-3 1 28-07-2017 3
23 Problems on single cylinder & multi
cylinder engines 1 29-07-2017 1
24 Fluctuation of energy- Problems 1 01-08-2017 1
25 Fly wheels and their design 1 02-08-2017 1
26 Tutorial-4 1 04-08-2017 3
27 Assignment/Quiz -2 1 05-08-2017 4
Number of classes 10
UNIT-III
28
Governor - introduction, Watt governors
working & Derivation for speed of
governor
1 16-08-2017 1,2,5
29 Porter governor working & derivation 1 18-08-2017 1,2
30 Porter governor Problems 1 19-08-2017 1
31 Tutorial-5 1 22-08-2017 3
32 Proell governor working & derivation 1 23-08-2017 1
33 Hartnell governor working & derivation 1 26-08-2017 1,2
34 Hartnell governor Problems 1 29-08-2017 1
35 Tutorial-6 1 30-08-2017 3
36 Sensitiveness, Isochronism and hunting 1 01-09-2017 1
37 Assignment/Quiz -3 1 02-09-2017 4
Number of classes 10
UNIT-IV
38 Introduction to Balancing - Balancing of
rotating masses in single plane 1 05-09-2017 1,2
39 Balancing of several masses rotating in
different planes 1 06-09-2017 1,2
40 Analytical and graphical methods 1 08-09-2017 1
41 Tutorial-7 1 09-09-2017 3
42 Primary, secondary balancing of
reciprocating masses. 1 12-09-2017 1,2
43 Analytical and graphical methods 1 13-09-2017 1
44 Unbalanced forces and couples 1 15-09-2017 1
45 Tutorial-8 1 16-09-2017 3
46
Examination of ‘V’ multi cylinder in line
and radial engines for primary and
secondary balancing
1 19-09-2017 1,2
47 Locomotive balancing -Hammer blow,
swaying couple and tractive efforts 1 20-09-2017 1,2
48 Assignment/Quiz -4 1 22-09-2017 3
Number of classes 11
UNIT-V
49 Introduction & Types of Vibrations 1 23-09-2017 1,5
50
Free longitudinal vibrations-
Displacement, velocity & acceleration of
body due to inertia force
1 26-09-2017 1
51 Inertia effect of the mass of spring-
problems 1 27-09-2017 1
52 Derivations & problems 1 29-09-2017 1
53 Tutorial-9 1 03-10-2017 3
54 Damped vibrations 1 04-10-2017 1
55 Forced vibrations & Forced damped
vibrations 1 06-10-2017 1,5
56 Vibration isolation and transmissibility &
Whirling speed of shafts 1 07-10-2017 1
57 Assignment/Quiz -5 1 10-10-2017 4
Number of classes 9
58 Beyond Syllabus – vibration measuring
instruments & transverse vibrations 1 11-10-2017 5
Total number of classes 58
Delivery Methods (DM):
1. Chalk & Talk 2. ICT Tools 3. Tutorial 4. Assignment/Test/Quiz
5. Laboratory/Field Visit 6. Web based learning.
Course
Instructor
Course
Coordinator Module Coordinator HOD
Signature
Name of the
faculty Ch. Siva Sankara Babu Mr. B. Sudheer Kumar Dr. S.Pichi Reddy
1. Pre-requisites:
2. Course Educational Objectives (CEOs):
In this Course student will learn about-The fundamental concepts and contributions of
management, human resource practices, quality control and project management which plays a
vital role in the organisation, study techniques for increased productivity, human resource
practices and various network techniques.
3. Course Outcomes (COs):
At the end of the course, the student will be able to:
CO1: Apply the fundamental knowledge of management and organization in work environment.
CO2: Analyze different types of plant location and plant layouts.
CO3: Examine the statistical quality control and material management as a process.
CO4: Apply the concepts of HRM and functions of HRM to achieve goals.
CO5: Make use of program evaluation review techniques (PERT) and critical path method for
real time project estimation.
4. Course Articulation Matrix:
Course
Code
COs Programme Outcomes PSOs
1 2 3 4 5 6 7 8 9 10 11 12 1 2 3
S269
CO1 3 1 2 1 3 1 2 1 3
CO2 1 1 1 2 2 1
CO3 1 2 2 2 3 2 1 3
CO4 2 1 1 1 1 3 1 1 1
CO5 3 1 1 1 1 1 1
1 = Slight (Low) 2 = Moderate (Medium) 3-Substantial(High)
Department: MECH Program: B.Tech
Course: –Industrial Management (S270)
SEM: V- B sec Academic Year:
2017-18
LESSON PLAN
5. Course Delivery Plan:
S.NO TOPIC TO BE COVERED
No. of Classes
Date DM As per the
Schedule Taken
UNIT-1
1
Introduction to Management: Definition,
Nature of management 1 6/19/2017 1,2
2 Importance and Functions of Management 1 6/20/2017 1,2
3 Taylor’s Scientific Management Theory 1 6/20/2017 1,2
4 Fayol’s Principles of Management 1 6/22/2017 1,2
5 Fayol’s Principles of Management cntd.. 1 6/27/2017 1,2
6 Contribution of Elton Mayo, Maslow 1 6/27/2017 3,4
7
Herzberg, Douglas Mc Gregor,
Assignment test-1 1 6/29/2017 1,2
8
Basic concepts of Organization, Authority,
Responsibility, Delegation of Authority 1 7/3/2017 1,2
9
Span of Control, Departmentation and
Decentralization 1 7/4/2017 1,2
10
Organization Structures: Line
organization,functional organization 1 7/4/2017 1,2
11
Line and staff organization, Committee
organization 1 7/7/2017 1,2
12
Matrix organization, review of
oraganisation structure 1 7/10/2017 1,2
13 unit-1 revision, Assignment test-2 1 7/11/2017 3,4
Number of classes 13
UNIT-II
14
Introduction To Operations
Management 1 7/11/2017 1,2
15
Plant Location, Factors influencing
location 1 7/13/2017 1,2
16 Principles of Plant Layouts 1 7/17/2017 1,2
17 Types of Plant Layouts 1 7/18/2017 1,2
18 Types of Plant Layouts cntd.. 1 7/18/2017 1,2
19
Methods of production: batch and Mass
Production 1 7/20/2017 1,2
20 Methods of production: Job Production 1 7/24/2017 1,2
21 Work Study 1 7/25/2017 1,2
22 Work Study cntd.. 1 7/25/2017 1,2
23 Work Study 1 7/27/2017 1,2
24 Basic procedure involved in Method Study 1 7/31/2017 1,2
25 Work Measurement 1 8/1/2017 1,2
26 Revision, Problems 1 8/1/2017 1,2
27 Problems, Assignment test-3 1 8/3/2017 3,4
Number of classes 14
28
MID-1
8/7/2017
29 8/8/2017
30 8/8/2017
31 8/10/2017
UNIT-III
32 Introduction to Quality Management 1 8/14/2017 1,2
33
Statistical Quality Control-Meaning,
Basics variables and attributes 1 8/17/2017 1,2
34 Control charts: X chart, R chart, 1 8/21/2017 1,2
35 Control charts: C chart, P chart 1 8/22/2017 1,2
36 Acceptance Sampling and Sampling plans 1 8/22/2017 1,2
37 Deming’s contribution to quality 1 8/24/2017 1,2
38
Introduction to Materials Management-
Objectives 1 8/28/2017 1,2
39
Need for Inventory control, Purchase
Procedure 1 8/29/2017 1,2
40 Store records and its types EOQ 1 8/29/2017 1,2
41 ABC Analysis 1 8/31/2017 1,2
42 problems, Assignment test-4 1 9/4/2017 3,4
43 stock levels 1 9/5/2017 1,2
Number of classes 12
UNIT-IV
44
Introduction to Human Resource
Management 1 9/5/2017 1,2
45
Concepts of HRM, Basic functions of HR
Manager 1 9/7/2017 1,2
46 Manpower planning 1 9/11/2017 1,2
47 Recruitment, Selection 1 9/12/2017 1,2
48 Training and Development, Placement 1 9/12/2017 1,2
49 Wage and Salary Administration 1 9/14/2017 1,2
50 Promotion, Transfer, Separation 1 9/18/2017 1,2
51 Performance Appraisal 1 9/19/2017 1,2
52 Job Evaluation and Merit Rating 1 9/19/2017 1,2
53 Revision, Problems, assignmenttest-5 1 9/21/2017 3,4
Number of classes 10
UNIT-V
54
UNIT: V: Introduction to Project
management 1 9/25/2017 1,2
55 Early techniques in Project Management 1 9/26/2017 1,2
56
Rules to draw network diagram and types
of activities 1 9/26/2017 1,2
57 problems 1 9/28/2017 1,2
58
Critical Path Method (CPM):identifying
critical path 1 10/3/2017 1,2
59 problems 1 10/3/2017 1,2
60
Project Evaluation and Review Technique
(PERT) 1 10/5/2017 1,2
61
Probability of Completing the project
within given time 1 10/9/2017 1,2
62 Problems, assignment test-6 1 10/10/2017 3,4
63 Project Cost Analysis 1 10/10/2017 1,2
64 Project Crashing, Problems 1 10/12/2017 3,4
Number of classes 11
65 10/16/2017
66 MID-II 10/17/2017
67 10/17/2017
68 10/19/2017
Total number of classes 60
Delivery Methods (DM):
1. Chalk & Talk 2. PPT 3. Tutorial 4. Assignment/Test/Quiz
Course Instructor Course Coordinator Module Coordinator HOD
Signature
Name of the
Faculty
1. Pre-requisites: Basic concepts of Engineering Drawing, Production Technology, Materials and Metallurgy.
2. Course Educational Objectives (CEOs):
To enable the learners to gain knowledge about metal cutting operation, tool nomenclature, tool geometry
and the various operations performed on machine tools for manufacturing of engineering objects to produce the
desired shape, size, accuracy; finish etc. and also students able to understand the basic concepts of Jigs and fixtures
designs.
3. Course Outcomes (COs): At the end of the course, the student will be able to :
CO1: Comprehend the basic principles of metal cutting and analyze the forces in machining.
CO2: Understand detailed working and applications of lathe
CO3: Comprehend the detailed working principle and applications on shaper, slotter, planar, drilling and boring
machines
CO4: Relate the knowledge of milling and grinding operations with manufacturing industry
CO5: Identify various kinds of finishing processes and different kinds of holding and guiding mechanisms.
4. Course Articulation Matrix:
Course
Code
COs Programme Outcomes PSOs
a b c d e f g h i j k l 1 2 3
S308
CO1 3 3 2 3 3 1 3 3 3
CO2 3 1 2 1 2 3 1 3 3 2
CO3 3 1 2 1 3 1 3 3 2
CO4 3 1 2 2 3 1 3 3 2
CO5 3 1 2 1 1 3 1 3 3 1
1 = Slight (Low) 2 = Moderate (Medium) 3-Substantial(High)
Department: Mechanical Program: UG (B.Tech)
Course: S308 Metal Cutting and Machine Tools
SEM: V (Section – B) Academic Year: 2017-18
LESSON PLAN
5. Course Delivery Plan:
S.NO TOPIC TO BE COVERED No.of Classes
Date DM As per
the
Schedule
Taken
Unit-1
1 Metal cutting and Machine tools, COs and POs PEOs 1 19/6/2017 DM1/DM6
2 Introduction, Classification of Machine tools 1 20/6/2017 DM1/DM6
3 Basic elements of Metal cutting, Methods of Metal
Cutting
1 21/6/2017 DM1/DM6
4 Classification of Cutting Tools 1 24/6/2017 DM1/DM6
5 Cutting tool materials 1 27/6/2017 DM1/DM6
6 Geometry of Single Point Cutting Tool 1 28/6/2017 DM1/DM6
7 Mechanism of Metal cutting 1 1/7/2017 DM1/DM6
8 Types of chips and Chip breakers 1 3/7/2017 DM1/DM6
9 measurement of chip thickness ratio, shear angle 1 4/7/2017 DM1/DM6
10 Tutorial - I 1 5/7/2017 DM2 / DM4
11 measurement of cutting forces, velocity diagrams 1 8/7/2017 DM1/DM6
12 Merchant’s Force diagram 1 10/7/2017 DM1/DM6
13 Numericals 1 11/7/2017 DM1/DM6
14 Machining parameters - Tool Life, related problems 1 12/7/2017 DM1/DM6
15 Work done in cutting. Metal cutting theories 1 15/7/2017 DM1/DM6
16 Tool Failure 1 17/7/2017 DM1/DM6
17 Cutting fluids 1 18/7/2017 DM1/DM6
18 Tutorial – II, Quiz – I, Assignment - I 1 19/7/2017 DM2 / DM4
Number of classes 18
Unit-II
19 Introduction, Principle of working 1 22/7/2017 DM1/DM6
20 Specification of lathe, classification of Lathes 1 24/7/2017 DM1/DM6
21 Lathe accessories, Tool holding, 1 25/7/2017 DM1/DM6
22 Work holding and Special attachments 1 26/7/2017 DM1/DM6
23 Lathe Operations, Tutorial – III 1 29/7/2017 DM2 / DM4/
DM6 24 Taper turning methods, Thread turning methodology 1 31/7/2017
DM1/DM6
25 Turret and Capstan Lathes: Introduction 1 1/8/2017 DM1/DM6
26 Principle of working -Collet chucks 1 2/8/2017 DM1/DM6
27 Other work and tool holding devices 1 5/8/2017 DM1/DM6
28 Box and tool layout, Assignment – II, Quiz-II 1 14/8/2017
DM2 / DM4/
DM6
Number of classes 10
I MID EXAMINATIONS (7/8/2017-12/8/2017)
Unit-III
29 Introduction to reciprocating machines, Planning 1 16/8/2017 DM1/DM6
30 Principles of working – Principal parts, Specification 1 19/8/2017 DM1/DM6
31 classification 1 21/8/2017 DM1/DM6
32 Operations performed, Machining time calculations 1 22/8/2017 DM1/DM6
33 Numericals 1 23/8/2017 DM1/DM6
34 Tutorial - IV 1 26/8/2017 DM2 / DM4
35 Drilling and Boring Machines : Introduction 1 28/8/2017 DM1/DM6
36 Principles of working – Principal parts, Specification 1 29/8/2017 DM1/DM6
37 Types of drilling machines, boring machines 1 30/8/2017 DM1/DM6
38 operations performed 1 4/9/2017 DM1/DM6
39 Tool holding devices, Twist drill 1 5/9/2017 DM1/DM6
40 Boring machines, Fine boring machines 1 6/9/2017 DM1/DM6
41 Deep hole drilling machine 1 9/9/2017 DM1/DM6
42 Tutorial – V, Assignment – III, Quiz-III 1 11/9/2017 DM2 / DM4
Number of classes 14
Unit-IV
43 Principle of working – Specifications 1 12/9/2017 DM1/DM6
44 Classifications of milling machines, Principal features of
horizontal, vertical and universal milling machines
1 13/9/2017 DM1/DM6
45 Methods of operations, various types of operations 1 1/9/2017 DM1/DM6
46 Geometry of milling cutters 1 16/9/2017 DM1/DM6
47 Types of Milling cutters 1 18/9/2017 DM1/DM6
48 Methods of indexing – Accessories to milling machines 1 19/9/2017 DM1/DM6
49 Tutorial – VI, Assignment – IV, Grinding Machines:
Introduction,
1 20/9/2017 DM2 / DM4/DM6
50 Fundamentals – Theory of grinding, Classification of
grinding machine
1 23/9/2017 DM1/DM6
51 Grinding wheel description, Types of Abrasive materials
and signatures
1 25/9/2017 DM1/DM6
52 Cylindrical and surface grinding machine 1 26/9/2017 DM1/DM6
53 Tool and cutter grinding machine 1 27/9/2017 DM1/DM6
54 special types of grinding machines, Quiz-IV 1 3/10/2017 DM2 / DM4/DM6
Number of classes 12
Unit-IV
55 Introduction to super finishing processes, Types 1 4/10/2017 DM1/DM6
56 Working Principle, Comparison to grinding – lapping and
honing
1 7/10/2017 DM1/DM6
57 Constructional features, Speed, Feed, DC and M/C 1 9/10/2017 DM1/DM6
58 Tutorial - VII and Assignment – V 1 10/10/2017 DM2 / DM4/DM6
59 Definitions of Jig and Fixture, comparisons and
classifications, Principles of design of Jigs and fixtures
1 11/10/2017 DM1/DM6
60 Types of clamping & work holding devices. Typical
examples of jigs and fixtures, Tutorial - XIV , Quiz – V,
Assignment - VI
1
14/10/2017 DM1/DM6
II MID EXAMINATIONS (16/10/2017-21/10/2017)
Number of classes 6
Total Number of classes 60
Delivery Methods (DM):
NOTE: DELIVERY METHODS (DM):
DM1: Lecture interspersed with discussions/BB DM2: Tutorial
DM3: Lecture with a Quiz DM4: Assignment/Test
DM5: Demonstration (laboratory, field visit) DM6: Presentations/PPT
Course
Instructor Course Coordinator
Module
Coordinator HOD
Signature
Name of the Faculty Dr.Murahari
Kolli
Dr.Murahari
Kolli Mr.J.Subba Rao Dr. Pichi Reddy
1. PRE-REQUISITES:- Basic Management Principles, Engineering Mathematics
2. COURSE EDUCATIONAL OBJECTIVES (CEOs):
The objective of this course is to introduce the concepts of formulating an engineering problem
into a mathematical model to develop an optimal solution.
3. COURSE OUTCOMES (COs):
After completion of the course student will be able to:
CO 1: Apply linear programming approach for optimizing the objectives of industrial oriented
problems.
CO 2: Formulate and solve Transportation Models and assignment Models
CO 3: Implement the strategies in competitive situations and Identify the replacement period
of the equipment.
CO 4: Analyze the waiting situations in an organization.
CO 5: Determine the optimum inventory level and resolve the complex problem into simple
problems by dynamic programming approach and apply optimum strategies.
4. Course Articulation Matrix:
Course
Code COs
Programme Outcomes PSOs
a b c d e f g h i j k l 1 2 3
S329
CO1 3 3 3 2 3 3 3 3
CO2 3 3 1 2 1 3 3 3
CO3 3 3 3 2 1 3 3 3
CO4 3 2 3 2 3 1 3 3
CO5 2 3 3 2 1 1 3 3
1 = Slightly correlated (Low) 2 = Moderately correlated (Medium) 3-Substantially correlated (High)
5. Course Delivery Plan:
Name: J Subba Reddy, Associate Professor Course: V-Sem (III yr B.Tech) Section: A
S.NO TOPIC TO BE COVERED
No. of Classes
Date DM As per the Schedule
Taken
UNIT – I : INTRODUCTION to OR, LINEAR PROGRAMMING PROBLEM
1 INTRODUCTION : Introduction to Operations Research
1 20-06-2017 DM 1
2 operations research models, applications 1 22-06-2017 DM 1
3 Linear Programming Problem (LPP): Linear Programming Problem Formulation
1 23-06-2017 DM 1
4 Numericals 1 24-06-2017 DM 1
5 Tutorial I, Quiz I 1 27-06-2017 DM2 / DM4
6 LPP: Graphical Method, Numericals 1 29-06-2017 DM 1
7 Graphical solution for Special Cases of LPP 1 30-06-2017 DM 1
8 Simplex Method, Numericals 1 01-07-2017 DM 1
Department: MECH Program: B.Tech
Course: OPERATIONS RESEARCH (S329)
SEM: V- B sec Academic Year:
2017-18
LESSON PLAN
9 Numericals 1 04-07-2017 DM 1
10 Big M Method (Artificial Variable Technique) 1 06-07-2017 DM 1
11 Numericals 1 07-07-2017 DM 1
12 Two Phase Simplex Method (Artificial Variable Technique)
1 08-07-2017 DM 1
13 Tutorial II, Quiz II 1 11-07-2017 DM2 / DM4
14 Numericals 1 13-07-2017 DM 1
15 Duality Principle 1 14-07-2017 DM 1
16 Numericals 1 15-07-2017 DM 1
17 Tutorial III, Quiz III 1
18-07-2017 DM2 / DM4
Number of classes 17
UNIT-II
18 TRANSPORTATION PROBLEM (TP) : Introduction to TP, Terminology, Formulation
1 20-07-2017 DM 1
19 Standard form, Unbalanced T P, Numericals 1 21-07-2017 DM 1
20 Initial Basic Feasible Solution to TP: North West Corner Method, Least Cost Entry Method, Vogel’s Approximation Method (VAM)
1 22-07-2017 DM 1
21 Tutorial IV, Quiz IV 1 25-07-2017 DM2 / DM4
22 Test for Optimality: Stepping Stone Method, Modified Distribution Method (MODI Method)
1 27-07-2017 DM 1
23 Numericals 1 28-07-2017 DM 1
24 Degeneracy in TP, Numericals 1 29-07-2017 DM 1
25 ASSIGNMENT PROBLEM (AP): Introduction to AP, Terminology; Tutorial V, Quiz V
1 01-08-2017 DM1, DM2 / DM4
26 Variants of Assignment Problem 1 03-08-2017 DM 1
27 Optimal Solution, Numericals 1 04-08-2017 DM 1
28 Travelling Salesmen Problem, Numericals 1
05-08-2017 DM 1
Number of classes 11
29
MID-I
08-08-2017
30
10-08-2017
31
11-08-2017
32
12-08-2017
UNIT-III
33 GAMES THEORY: Introduction to Games Theory, Terminology
1 17-08-2017 DM 1
34 Minimax or Maxmini Criterion, Optimal Strategy 1 18-08-2017 DM 1
35 Solution of games with saddle point 1 19-08-2017 DM 1
36 Tutorial VI, Quiz VI 1 22-08-2017 DM2 / DM4
37 Rectangular games without saddle point, Numericals
1 24-08-2017 DM 1
38 mx2, 2xn, mxn games, Dominance Principle, Numericals
1 25-08-2017 DM 1
39 Graphical approach, Numericals 1 26-08-2017 DM 1
40 Tutorial VII, Quiz VII 1 29-08-2017 DM2 / DM4
41
THEORY OF REPLACEMENT: Introduction, Replacement of Equipment that Deteriorates Gradually, Numericals
1 31-08-2017 DM 1
42 Replacement of Equipment that fails 1 01-09-2017 DM 1
suddenly, Numericals
43 Group Replacement Policy, Numericals 1 02-09-2017 1
44 Tutorial VIII, Quiz VIII 1 05-09-2017 DM2 / DM4
Number of classes 12
UNIT-IV
45 WAITING LINES: Introduction to Queuing Theory
1 07-09-2017 DM 1
46
Single Channel – Poisson arrivals – exponential service times – with infinite population, Derivation, Numericals
1 08-09-2017 DM 1
47
Single Channel – Poisson arrivals – exponential service times – with finite population, Numericals
1 09-09-2017 DM 1
48 Tutorial IX, Quiz IX 1 12-09-2017 DM2 / DM4
49
INVENTORY MODELS: Introduction to Inventory, Inventory control, Terminology, Economic Order Quantity (EOQ), Numericals
1 14-09-2017 DM 1
50
Deterministic models –– Instantaneous production, finite production, continuous demand, no set up cost, shortages are not allowed, Derivation, Numericals
1 15-09-2017 DM 1
51 Purchase inventory models with one price break and multiple price breaks, Numericals
1 16-09-2017 DM 1
52 Tutorial X, Quiz X 1 19-09-2017 DM2 / DM4
53 Numericals 1 21-09-2017 DM 1
Number of classes 09
UNIT-V
54 DYNAMIC PROGRAMMING (DP): Introduction to DP
1 22-09-2017 DM 1
55 Bellman’s Principle of Optimality, Applications of Dynamic Programming
1 23-09-2017 DM 1
56 Tutorial XI, Quiz XI 1 26-09-2017 DM2 / DM4
57 Capital Budgeting Problem, Numericals 1 28-09-2017 DM 1
58 Shortest Path Problem, Numericals 1 29-09-2017 DM 1
59 Linear Programming Problem, Numericals 1 30-09-2017 DM 1
60 Tutorial XII, Quiz XII 1 03-10-2017 DM2 / DM4
61 INTRODUCTION TO OPTIMIZATION: Introduction 1 05-10-2017 DM 1
62 Engineering Applications of Optimization 1 06-10-2017 DM 1
63
Problem Statement, Design Vector, Design Constraints, Constraints Surface, Objective Function, Objective Function Surfaces, Numericals
1 07-10-2017
DM 1
64 Tutorial XIII, Quiz XIII 1 10-10-2017 DM2 / DM4
65 Classification of Optimization Problems 1
12-10-2017 DM 1
66 Optimization Techniques: Introduction, Single Variable Optimization
1
13-10-2017 DM 1
67 Numericals 1
14-10-2017 DM 1
Number of classes 14
68
17-10-2017
69 MID-II
19-10-2017
70
20-10-2017
71
21-10-2017
Total number of classes 71
Delivery Methods (DM): DM1: Lecture interspersed with discussions/BB
DM4: Assignment/Test
DM2: Tutorial
DM5: Demonstration (laboratory, field visit)
DM3: Lecture with a Quiz
DM6: Presentations/PPT
Course Instructor Course
Coordinator
Module
Coordinator
Programme
Coordinator HOD
Signature
Name of the
Faculty B. Chaitanya B. Chaitanya J. Subba Reddy Dr. P. Ravindra Kumar Dr. S. Pichi Reddy