1. A 1 % in. by 7/8 in. key is to be designed for a 12.7 cm shaft which will transmit power of 187.2 kW at 463 rpm. The allowable shear stress for the key is 920 kg/cm2 and the allowable compressive stress for the key is 1300 kg/cm2. Determine (a) the required length of the key, in mm, to avoid failure in crushing, (b) the required length of the key, in mm, to avoid failure in shear, and (c) the required length of the key, in cm, to be used in this scenario.

Elements Of Electromagnetics
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Author:Sadiku, Matthew N. O.
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1. A 1 % in. by 7/8 in. key is to be designed for a 12.7 cm shaft which will transmit power of 187.2 kW at 463 rpm. The
allowable shear stress for the key is 920 kg/cm2 and the allowable compressive stress for the key is 1300 kg/cm2.
Determine (a) the required length of the key, in mm, to avoid failure in crushing, (b) the required length of the key, in
mm, to avoid failure in shear, and (c) the required length of the key, in cm, to be used in this scenario.
Transcribed Image Text:1. A 1 % in. by 7/8 in. key is to be designed for a 12.7 cm shaft which will transmit power of 187.2 kW at 463 rpm. The allowable shear stress for the key is 920 kg/cm2 and the allowable compressive stress for the key is 1300 kg/cm2. Determine (a) the required length of the key, in mm, to avoid failure in crushing, (b) the required length of the key, in mm, to avoid failure in shear, and (c) the required length of the key, in cm, to be used in this scenario.
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