8.21 (B). (a) A solid circular steel shaft is subjected to a bending moment of 10 kN m and is required to transmit a maximum power of 550 kW at 420 rev/min. Assuming the shaft to be simply supported at each end and neglecting the shaft weight, determine the ratio of the maximum principal stress to the maximum shear stress induced in the shaft material.

Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
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8.21 (B). (a) A solid circular steel shaft is subjected to a bending moment of 10 kN m and is required to transmit a
maximum power of 550 kW at 420 rev/min. Assuming the shaft to be simply supported at each end and neglecting the
shaft weight, determine the ratio of the maximum principal stress to the maximum shear stress induced in the shaft
material.
(b) A 300 mm external diameter and 200 mm internal diameter hollow steel shaft operates under the following
conditions:
power transmitted = 2280 kW; maximum torque = 1.2 x mean torque; maximum bending moment
= 11 kN m; maximum end thrust = 66 kN; maximum principal compressive stress = 40 MN/m².
Determine the maximum safe speed of rotation for the shaft.
[1.625:1; 169 rev/min.]
Transcribed Image Text:8.21 (B). (a) A solid circular steel shaft is subjected to a bending moment of 10 kN m and is required to transmit a maximum power of 550 kW at 420 rev/min. Assuming the shaft to be simply supported at each end and neglecting the shaft weight, determine the ratio of the maximum principal stress to the maximum shear stress induced in the shaft material. (b) A 300 mm external diameter and 200 mm internal diameter hollow steel shaft operates under the following conditions: power transmitted = 2280 kW; maximum torque = 1.2 x mean torque; maximum bending moment = 11 kN m; maximum end thrust = 66 kN; maximum principal compressive stress = 40 MN/m². Determine the maximum safe speed of rotation for the shaft. [1.625:1; 169 rev/min.]
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