EBK MECHANICS OF MATERIALS
EBK MECHANICS OF MATERIALS
7th Edition
ISBN: 8220100257063
Author: BEER
Publisher: YUZU
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Chapter 7.6, Problem 127P

(a)

To determine

Find the tensile stress in the steel ring.

(a)

Expert Solution
Check Mark

Answer to Problem 127P

The tensile stress in the steel ring is 2.28ksi_.

Explanation of Solution

Given information:

Steel Ring:

The thickness (ts) of the steel ring is 0.25in.

The Young’s modulus (Es) of the steel ring is 29×106psi.

The coefficient of thermal expansion (αs) of the steel ring is 6.5×106/°F.

Brass Ring:

The thickness (tb) of the steel ring is 0.125in.

The Young’s modulus (Eb) of the steel ring is 15×106psi.

The coefficient of thermal expansion (αb) of the steel ring is 11.6×106/°F.

Consider the strain in the steel ring and the brass ring due to tensile stress are denoted by εsp and εbp.

Consider the strain in the steel ring and the brass ring due to temperature stress are denoted by εsT and εbT.

Consider the total strain in the steel ring and the brass ring are denoted by εs and εb.

Consider the internal pressure in the steel ring is denoted by p.

Consider the external pressure in the steel ring is same as p.

The initial and final temperature of the ring are Ti=50°F and Tf=125°F.

Calculation:

Calculate the change in the temperature (ΔT) of the ring as follows:

ΔT=TfTi=125°F50°F=75°F

Calculate the mean radius (r) of the ring as follows:

r=d2

Substitute 5in. for d.

r=52=2.5in.

Consider the tensile stress in the steel ring in the brass ring and the steel ring is denoted by σb and σs.

Calculate the total strain in the steel ring using the relation:

εs=εsp+εsT=(σsEs)+(αsΔT)=[(prts)Es]+(αsΔT)=prEsts+αsΔT

Calculate the change in length of circumference of the steel ring (ΔLs) as follows:

ΔLs=2πrεs=2πr(prEsts+αsΔT) (1)

Calculate the total strain in the steel ring using the relation:

εb=εbp+εbT=(σbEb)+(αbΔT)=[(prtb)Eb]+(αbΔT)=prEbtb+αbΔT

Calculate the change in length of circumference of the steel ring (ΔLb) as follows:

ΔLb=2πrεb=2πr(prEbtb+αbΔT) (2)

Equate Equation (1) and (2).

ΔLs=ΔLb2πr(prEsts+αsΔT)=2πr(prEbtb+αbΔT)(prEsts+αsΔT)=(prEbtb+αbΔT)p(rEsts+rEbtb)=(αbαs)ΔT (3)

Substitute 2.5in. for r, 29×106psi for Es, 0.25in. for ts, 15×106psi for Eb, 0.125in. for tb, 11.6×106/°F for αb, 6.5×106/°F for αs, and 75°F for ΔT in Equation (3).

p(2.529×106×0.25+2.515×106×0.125)=(11.6×1066.5×106)×75p(0.3448×106+1.3333×106)=(5.1×106)×751.6781×106p=382.5×106p=382.5×1061.6781×106

p=227.93psi

Calculate the tensile stress in the steel ring using the relation:

σs=(prts)

Substitute 227.93psi for p, 2.5in. for r, and 0.25in. for ts.

σs=(227.93×2.50.25)=2,280psi×1ksi1,000psi=2.28ksi

Thus, the tensile stress in the steel ring is 2.28ksi_.

(b)

To determine

Find the pressure exerted by the brass ring on the steel ring.

(b)

Expert Solution
Check Mark

Answer to Problem 127P

The pressure exerted by the brass ring on the steel ring is 227.93psi_.

Explanation of Solution

Refer part (a);

Get the value of the pressure exerted by the brass ring on the steel ring as p=227.93psi.

Thus, the external pressure on the brass ring is 227.93psi_.

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Chapter 7 Solutions

EBK MECHANICS OF MATERIALS

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