Answered: The figure Q3 below shows a bolt… | bartleby

The figure Q3 below shows a bolt holding together two components. The bolt has a load bearing diameter of 6mm and a pitch of 1mm. It is made from steel with E=210 GPa. It is tightened 5 degrees beyond normal contact. The hole it passes through is 8mm diameter and its clamping force is distributed to a diameter of 16mm. a) Determine an equation for the deflection of the bolt when in contact with component 1 and component 2 as function of axial load? b) Write an equation for the deformation of component 1 in contact with both the bolt and component 2 as a function of axial loading. c) Present an equation for the deflection of component 2 in contact with both component 1 and the bolt as a function of axial loading. d) Establish a compatibility relationship for the deformation of structure in Fig. 3 e) Determine the force being exerted on component 1 and component 2

Elements Of Electromagnetics

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

The figure Q3 below shows a bolt holding together two components. The bolt has a load
bearing diameter of 6mm and a pitch of 1mm. It is made from steel with E=210 GPa. It is
tightened 5 degrees beyond normal contact. The hole it passes through is 8mm diameter and
its clamping force is distributed to a diameter of 16mm.
a) Determine an equation for the deflection of the bolt when in contact with component 1
and component 2 as function of axial load?

b) Write an equation for the deformation of component 1 in contact with both the bolt and
component 2 as a function of axial loading.

c) Present an equation for the deflection of component 2 in contact with both component 1
and the bolt as a function of axial loading.

d) Establish a compatibility relationship for the deformation of structure in Fig. 3

e) Determine the force being exerted on component 1 and component 2

Component 1: E = 200 GPa, Thickness = 5mm
Component 2: E = 70 GPa, Thickness = 10mm

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