Teaching Scheme (in Hours)
| Theory |
Tutorial |
Practical |
Total |
| 3 |
2 |
0 |
5 |
Subject Credit : 5
Examination Scheme (in Marks)
Theory
ESE (E)
|
Theory
PA (M)
|
Practical
ESE Viva (V)
|
Practical
PA (I)
|
Total
|
| 70 |
30 |
30 |
20 |
150 |
Syllabus Content
Unit-1: Gear Design
Recitation: Classification of gears, Selection of type of gears, Law of Gearing, Gear terminology, Standard system of gear tooth, force analysis, Interference and undercutting, number of teeth, gear tooth failures, selection of material.
Spur and Helical Gears: Stress in gear tooth: Lewis formula, AGMA bending stress equation and AGMA pitting resistance formula, Gear quality and selection aspects.
Bevel and Worm gears: Specifications and design of bevel and worm gears
Unit-2: Design of Gear Box for Machine Tools
Comparison and Choice of progression (Arithmetic, Geometric, Harmonic and Logarithmic), general design procedure, determination and fixation of spindle speeds, selection of the best structure diagram, selection of gear layout and ray diagram, determination of number of teeth on gears
Unit-3: Journal Bearings
Classification of bearings. Journal bearing Types, Lubrication: types of lubrication, Lubricants, Effect of pressure and temperature on viscosity, Stable lubrication, Thin and thick film lubrication.
Hydraostatic Bearing: Viscous flow through rectangular slot, step bearing, energy losses.
Hydrodynamic Bearing: Lubrication theory (Petroff’s Equation, Reynolds’ Equation), Design of bearings with Raimondi and Boyd method, power and heat generation, bearing materials
Unit-4: Rolling Contact Bearings
Classification, Static load carrying capacity, Stribeck’s equation, Dynamic load carrying capacity, Equivalent bearing load, Load-Life relation, Selection of bearing life, Load factor, Selection of bearing from catalogue, Design for cyclic loads and speeds, Bearing with probability of survival other than 90%, Selection of taper roller bearing, Bearing failure, Lubrication of rolling contact bearing
Unit-5: IC Engine Components
Design of cylinder and Cylinder head, Design of piston, Design of connecting rod, Design of crankshaft and Design of valve-gear mechanism
Unit-6: Design of Cranes
Basic objectives of material handling system, Types of load, Classification and application of various Material handling equipment, Basic principles in selection of material handling system, Classification of cranes, Stress analysis and selection of Hooke (IS 15560, 2005), Pulley System (hoisting tackle analysis), Steel Wire ropes: Classification and coding, stress analysis and selection, Design of Sheave and drums
Reference Books
| Sr. |
Title |
Author |
Publication |
Amazon Link |
| 1 |
Machine Design An Introduction |
R L Norton |
Pearson. |
|
| 2 |
Design of Machine Elements |
V B Bhandari |
McGraw Hill. |
|
| 3 |
Machine Design Databook |
V B Bhandari |
McGraw Hill |
|
