Vector Mechanics for Engineers: Statics and Dynamics
Vector Mechanics for Engineers: Statics and Dynamics
12th Edition
ISBN: 9781259638091
Author: Ferdinand P. Beer, E. Russell Johnston Jr., David Mazurek, Phillip J. Cornwell, Brian Self
Publisher: McGraw-Hill Education
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Chapter 8.3, Problem 8.96P
To determine

Prove that the magnitude M of the couple required to overcome the frictional resistance of a conical bearing as M=23μkPsinθR23R13R22R12.

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Explanation of Solution

Write the equation of the magnitude of the couple as follows;

M=23μkPsinθR23R13R22R12

Here, the coefficient of kinetic friction is μk, the magnitude of the total axial force is P, the outer radii of the collar is R1, and the inner radii of the collar is R2.

Show the free-body diagram of the conical bearing as in Figure 1.

Vector Mechanics for Engineers: Statics and Dynamics, Chapter 8.3, Problem 8.96P

It has been assumed that the normal force per unit area is inversely proportional to r.

ΔA=rΔsΔϕ

Here, the distance between the point to the axis of the shaft is r, the change in distance is Δr, and the change in azimuthal angle is Δϕ.

Here, Δs=Δrsinθ

Find the normal force exerted ΔN due to the element of area ΔA using the relation;

ΔN=kΔA

Substitute rΔsΔϕ for ΔA.

ΔN=krΔsΔϕ

Substitute Δrsinθ for Δs.

ΔN=krΔrsinθΔϕ (1)

Find the change in friction force in y-axis;

ΔFy=ΔNsinθ

Substitute krΔrsinθΔϕ for ΔN.

ΔFy=krΔrsinθΔϕsinθ=krΔrΔϕ

Find the value of k using the relation.

P=ΔFy=02πR1R2ΔFy

Substitute krΔrΔϕ for ΔFy.

P=02πR1R2krΔrΔϕ=k[r22]R1R2[ϕ]02π=k[R22R122][2π]=πk(R22R12)

k=Pπ(R22R12)

Substitute Pπ(R22R12) for k in Equation (1).

ΔN=Pπ(R22R12)rΔrsinθΔϕ

Find the change in friction force ΔF using the relation.

ΔF=μkΔN

Substitute Pπ(R22R12)rΔrsinθΔϕ for ΔN.

ΔF=μkPπ(R22R12)rΔrsinθΔϕ

Find the change in moment ΔM using the relation.

ΔM=rΔF

Substitute μkPπ(R22R12)rΔrsinθΔϕ for ΔF.

ΔM=rμkPπ(R22R12)rΔrsinθΔϕ

Integrate the equation to find the couple M.

M=02πR1R2ΔM

Substitute rμkPπ(R22R12)rΔrsinθΔϕ for ΔM and integrate.

M=02πR1R2rμkPπ(R22R12)rΔrsinθΔϕ=μkPπsinθ(R22R12)[r33]R1R2[ϕ]02π=μkPπsinθ(R22R12)[R23R133][2π]=23μkPsinθ(R23R13)(R22R12)

Hence, it has been proved that the magnitude M of the couple required to overcome the frictional resistance of a conical bearing is M=23μkPsinθ(R23R13)(R22R12).

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Chapter 8 Solutions

Vector Mechanics for Engineers: Statics and Dynamics

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