Name of Faculty: SANJAY BHANDARI Discipline: Automobile Engineering Semester: 4 TH Subject: Theory of Machine, Theory of Machine Lab Lesson Plan Duration: 15 weeks (January,2018- Apri,2018) Week Theory Practical Lecture Day Topics (including assignment test) Practical Day Topic 1 1. Machine Structure, Kinematic link, Pair and chain, 1 To study various types of Kinematic links, pairs, chains and Mechanisms. 2. Grueblers criteria 3. Constrained motion 4. Degrees of freedom 2 5. Four Bar chain mechanism 2 To study inversions of 4 Bar Mechanisms, Single and Double slider crank mechanisms. 6. Single slider crank chain mechanisms 7. Inversions, Applications 8. Kinematic analysis of simple mechanisms 3 9. Determination of velocity and acceleration, 3 To plot slider displacement, velocity and acceleration against crank rotation for Single slider crank mechanism. 10. Friction in screw and nut, Pivot and collar 11. Thrust bearing,Plate and disc clutches 12. Flat , V Belt and rope drives 4 13. Ratio of tensions, Effect of centrifugal and initial tension 4 Draw Klein’s construction for Single slider crank mechanism. 14. Condition for maximum power transmission 15. Open and crossed belt drive 16. Assignment Test 1 5 17. Gear profile and geometry, 5 To study the different type of the belt drives. 18. Nomenclature of spur gears 19. Nomenclature of helical gears 20. Gear trains: Simple 6 21. Compound gear trains 6 To study various type of cam and follower arrangements. 22. Epicyclic gear trains 23. Determination of speed and torque 24. Cams – Types of cams 7 25. Design of profiles 7 To plot follower displacement v/s cam rotation for various Cam Follower systems. 26. Knife edged followers with and without offsets forVarious types of follower motions 27. Flat faced followers with and without offsets forVarious types of follower
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Discipline: Automobile Engineering29. Numericals on gear train 8 To study various types of gears-Spur, Helical, Double helical, Spiral, Bevel gear, Hypoid 30. Numerical on cam profile
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Name of Faculty: SANJAY BHANDARI
Discipline: Automobile Engineering
Semester: 4TH
Subject: Theory of Machine, Theory of Machine Lab
Lesson Plan Duration: 15 weeks (January,2018- Apri,2018)
Week Theory Practical
Lecture
Day
Topics (including assignment test) Practical
Day
Topic
1
1. Machine Structure, Kinematic link,
Pair and chain,
1
To study various types of
Kinematic links, pairs, chains
and Mechanisms. 2. Grueblers criteria
3. Constrained motion
4. Degrees of freedom
2
5. Four Bar chain mechanism
2
To study inversions of 4 Bar
Mechanisms, Single and Double slider crank mechanisms.
6. Single slider crank chain mechanisms
7. Inversions, Applications
8. Kinematic analysis of simple
mechanisms
3
9. Determination of velocity and
acceleration,
3
To plot slider displacement,
velocity and acceleration against crank rotation for Single slider
crank mechanism. 10. Friction in screw and nut, Pivot and
collar
11. Thrust bearing,Plate and disc clutches
12. Flat , V Belt and rope drives
4
13. Ratio of tensions, Effect of centrifugal
and initial tension
4
Draw Klein’s construction for
Single slider crank mechanism.
14. Condition for maximum power
transmission
15. Open and crossed belt drive
16. Assignment Test 1
5
17. Gear profile and geometry,
5
To study the different type of
the belt drives.
18. Nomenclature of spur gears
19. Nomenclature of helical gears
20. Gear trains: Simple
6
21. Compound gear trains
6
To study various type of cam
and follower arrangements.
22. Epicyclic gear trains
23. Determination of speed and torque
24. Cams – Types of cams
7
25. Design of profiles
7
To plot follower displacement
v/s cam rotation for various
Cam Follower systems.
26. Knife edged followers with and
without offsets forVarious types of follower motions
27. Flat faced followers with and without
offsets forVarious types of follower
motions
28. Roller ended followers with and without offsets forVarious types of
follower motions
8
29. Numericals on gear train
8
To study various types of gears-Spur, Helical, Double helical,
Spiral, Bevel gear, Hypoid 30. Numerical on cam profile and follower
movement
31. Assignment Test 2
32. Static and dynamic balancing
9
33. Single mass in different planes
9
To study various types of gear trains – Simple, Compound and
Epicyclic 34. Several masses in different planes
35. Balancing of reciprocating masses
36. Primary balancing
10
37. Concepts of secondary balancing Single
10
To find co-efficient of friction between belt and pulley.
38. Multi cylinder engines (Inline)
39. Balancing of radial V engine
40. Direct crank method
11
41. Reverse crank method
11
To study the working of Screw Jack and determine its
efficiency. 42. Numerical on balancing: Static
43. Numerical on balancing: Dynamic
44. Assignment test 3
12
45. Free vibrations of single degree of freedom systems
12
Draw the involute and cycloidal teeth profile.
46. Forcedvibrations of single degree of
freedom systems
47. Damped vibrations of single degree of freedom systems
48. Force transmitted to supports
13
49. Vibration isolation
13
To perform the experiment for
static balancing on Static Balancing Machine
50. Vibration absorption
51. Torsional vibration of shaft
52. Single systems
14
53. multi rotorsystems
14
To perform the experiment for
dynamic balancing on Dynamic
Balancing machine 54. Geared shafts
55. Critical speed of shaft
56. Numerical on free vibration
15
57. Numerical on forced vibration
15
Determine the turning moment
on crank shaft neglecting weight
of the connecting rod in the reciprocating parts of an engine
58. Numerical on damped vibration
59. Assignment test 4
60. Assignment test 5
Name of Faculty: MUKESH KUMAR
Discipline: Automobile Engineering
Semester: 4TH
Subject: CHT, CHT Lab
Lesson Plan Duration: 15 weeks (January,2018- Apri,2018)
Week Theory Practical
Lecture
Day
Topics (including assignment test) Practical
Day
Topic
1
1 Combustion in premixed flames
1
Experiments on Thermal
conductivity of solids, liquids and
liquids 2 Combustion in diffusion flames
3
4 Test and Assignment-1
2
5 Combustion process in IC engines.
2
Experiments on Natural convection and forced convection. 6
7
8
3
9 Stages of combustion
3
Experiments on Boiling heat transfer and cooling tower
10
11 Flame propagation
12 Rate of pressure rise.
4
13 Cycle to cycle variation.
4
Experiments on emissivity and
absorvity
14 Abnormal combustion
15 Theories of detonation
16
5
17 Effect of engine operating variables
on combustion 5
Experiments on Heat exchangers
18
19
20 Assignment Test 2
6
21 Droplet and spray combustion
theory
6
Experiments on LMTD methods
22
23
24 Stages of combustion
7
25 Delay period & peak pressure
7
Experiments on mass transfer.
26
27
28 Heat release
8
29 Gas temperature
8
Experiments on temperature
distribution, thermal stresses and
Heat transfer in piston, Cylinder
liner, Cylinder head, fins and values.
30 Diesel knock 31
32
9
33 Assignment Test-3
9
Experimental investigation of
combustion and heat transfer in IC
engines 34 Basic definitions of Heat Transfer
In IC Engines
35 Conduction heat transfer
36 Radiation heat transfer
10
37 Convective heat transfer.
10
Experimental Photographic studies of combustion processes, P-θ
diagram in SI and CI engine. 38 Numerical on conductive, radiative
and convective heat transfer 39
40
11
41 Temperature distribution in piston
11
Experimental Anemometry 42 Thermal stresses in piston
8 PAINT SHOP EQUIPMENT: Spray Paint Booth, Sun Scanners 30
31 Camber Caster King Pin Gauge, Toe in
Gauge, Tyre Changer & Tyre Inflator 32
9 33 Overview, Body and Frame Repair
Equipment,
9 CLEANING EQUIPMENT: Pressure Automatic Touch Free Car Wash System, High Pressure Steam Jet Cleaning, Vehicle Washers, Hose Reels, Auto Service Unit, Two/ Three Wheeler Washers,
34 Bench Type, Floor Type, Platform Type,
Intermediate Type
35 Measuring Equipment, Cutting Equipment,
Sanding Equipment 36
10 37 Tools for Panel Repairs, Tools for Removal and Mounting