A vertical shaft is supported by two deep groove ball bearings as shown below. The sh aft will be driven by vee belts through a pulley. The combined tensions of the belt appl y and the weight of the pulley assembly applies a force of 5.4kN and 900N respectively. The shaft has a diameter of 32mm and it rotates at 300rpm. Bearing A at the top supp orts the shaft radially whereas bearing B at the bottom supports the shaft axially and r adially. Two deep groove ball bearings have been selected for this application. The mo dels of the bearings are 6305 and 6205 for bearing A and B respectively. A shock factor of 2 for vee belt forces is applied. You are required to build a model of the shaft using the software Mesys Shaft Calculati on, verify that the bearings are suitable for this application and analyse the stresses di stribution in the bearings.

A vertical shaft is supported by two deep groove ball bearings as shown below. The sh aft will be driven by vee belts through a pulley. The combined tensions of the belt appl y and the weight of the pulley assembly applies a force of 5.4kN and 900N respectively. The shaft has a diameter of 32mm and it rotates at 300rpm. Bearing A at the top supp orts the shaft radially whereas bearing B at the bottom supports the shaft axially and r adially. Two deep groove ball bearings have been selected for this application. The mo dels of the bearings are 6305 and 6205 for bearing A and B respectively. A shock factor of 2 for vee belt forces is applied. You are required to build a model of the shaft using the software Mesys Shaft Calculati on, verify that the bearings are suitable for this application and analyse the stresses di stribution in the bearings.

Elements Of Electromagnetics

7th Edition

ISBN:9780190698614

Author:Sadiku, Matthew N. O.

Publisher:Sadiku, Matthew N. O.

ChapterMA: Math Assessment

Section: Chapter Questions

Problem 1.1MA

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Question

A vertical shaft is supported by two deep groove ball bearings as shown below. The sh
aft will be driven by vee belts through a pulley. The combined tensions of the belt appl
y and the weight of the pulley assembly applies a force of 5.4kN and 900N respectively.
The shaft has a diameter of 32mm and it rotates at 300rpm. Bearing A at the top supp
orts the shaft radially whereas bearing B at the bottom supports the shaft axially and r
adially. Two deep groove ball bearings have been selected for this application. The mo
dels of the bearings are 6305 and 6205 for bearing A and B respectively. A shock factor
of 2 for vee belt forces is applied.
You are required to build a model of the shaft using the software Mesys Shaft Calculati
on, verify that the bearings are suitable for this application and analyse the stresses di
stribution in the bearings.

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