Lesson 16 of 21 • 23 upvotes • 14:57mins
The discussion is on bending equation, bending stress distributing. Design of belt drive based on bending. Here we answer which belt to prefer to get minimum bending stress and tensile stress.
21 lessons • 4h 33m
Introduction
7:27mins
An Introduction to SFD and BMD
13:38mins
SFD and BMD 2
14:33mins
SFD and BMD 3
9:22mins
SFD and BMD 4
12:16mins
SFD and BMD 5 Curvature of BMD
14:58mins
SFD and BMD 6
11:52mins
SFD and BMD 7 Most complicated numerical in SFD & BMD
15:00mins
Deflection of Beams #1:Introduction and double integration method
12:34mins
Deflection of Beams #2 : formulas of slope and deflection for various loading configurations
14:18mins
Deflection of Beams #3.1: Some more formulas important for GATE, ESE and PSUs
15:00mins
Deflection of Beams #3.2 : Moment area method and castigliano's method
13:28mins
Deflection of beam #3.3 - some examples of castigliano's theorem
11:37mins
Shear stress #1: Derivation of shear stress distribution for rectangular bar.
12:59mins
Shear stress #2 : Shear stress distribution for various Cross sections.
11:27mins
Bending #1: Bending equation, bending stress in flat belts.
14:57mins
Bending #2 : Resisting force, best l:b ratio
15:00mins
Torsion #1: Basics
14:38mins
Torsion #2 : Bars in series
13:22mins
Torsion #3 : Belt tension, non-pure torsion.
9:44mins
Torsion #4 : Both ends of the bar fixed
14:59mins