ENGR 220 Section 5.1-5.3
ENGR 220 Section 5.1-5.3
Jan 24, 2016
ENGR 220 Section 5.1-5.3. Torsional Deformation of a Circular Shaft. Torsional Deformation of a Circular Shaft. The Torsional Formula. If the material is elastic then Hooke’s Law applies. Derivation of the Torsional Formula. Torsional Equation. - PowerPoint PPT Presentation
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ENGR 220Section 5.1-5.3
Torsional Deformation of a Circular Shaft
Torsional Deformation of a Circular Shaft
max
c
The Torsional Formula• If the material is elastic then Hooke’s Law
applies.
max
c
G
Derivation of the Torsional Formula
Torsional Equation
44
4
max
2Shaft Tubular
2Shaft Solid
io ccJ
cJ
J
Tc
Lecture Example: Plot the torque on the shaft as a function of position from E to B. The smooth bearings at A and B do not resist torque.
Lecture Example: Plot the shear stress distribution acting along a radial line lying in the region EA of the shaft. The smooth bearings at A and B do not resist torque.
Shaft ID = 1 inShaft OD = 1.25 in
Power Transmission
TfP
Tdt
dTP
2
Lecture Example: The gear motor can develop 1/10 hp when it turns at 80 rev/min. If the allowable stress for the shaft is τallow = 4 ksi determine the smallest diameter shaft to the nearest 1/8 in that can be used.
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