EBK MECHANICS OF MATERIALS
EBK MECHANICS OF MATERIALS
7th Edition
ISBN: 8220102804487
Author: BEER
Publisher: YUZU
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Chapter 7.2, Problem 38P

Solve Prob. 7.16, using Mohr's circle.

7.13 through 7.76 For the given state of stress, determine the normal and shearing stresses after the element shown has been rotated through (a) 25° clockwise, (b) 10° counterclockwise.

Chapter 7.2, Problem 38P, Solve Prob. 7.16, using Mohr's circle. 7.13 through 7.76 For the given state of stress, determine

Fig. P7.16

(a)

Expert Solution
Check Mark
To determine

The normal and shearing stresses after the element has been rotated through 25° clockwise using Mohr’s circle.

Answer to Problem 38P

The normal stresses are σx=24MPa_ and σy=104MPa_.

The shear stress is τxy=1.5MPa_.

Explanation of Solution

Given information:

The stress component along x direction as σx=0.

The stress component along y direction as σy=80MPa.

The shear stress component as τxy=50MPa.

The orientation of the principal plane as θ=25°.

Calculation:

Apply the procedure to construct the Mohr’s circle as shown below.

  • Find the centre of the circle C located σavg=σx+σy2 from the origin.
  • Plot the reference points A having coordinates A(σx,τA).
  • Connect the point A with C and from the shaded triangle and find the radius R of the circle.
  • Sketch the circle once R has been determined.

Construct the Mohr’s circle as shown below.

Calculate the centre of the circle (σavg) using average normal strain as shown below.

σavg=σx+σy2

Substitute 0 for σx and 80MPa for σy.

σavg=0802=40MPa

The centre of the circle is C=40MPa.

Coordinates of the reference point X.

X=(σx,τxy)

Substitute 0 for σx and 50MPa for τxy.

X=(0,(50MPa))=(0, 50 MPa)

Coordinates of the reference point Y.

Y=(σy,τxy)

Substitute 80MPa for σy and 50MPa for τxy.

Y=(80MPa,50MPa)

Calculate the radius (R) of the circle as shown below.

R=(σxσavg)2+(τxy)2

Substitute 0 for σx, 40MPa for σavg and 50MPa for τxy.

R=(0(40))2+(50)2=4,100=64.031MPa

Sketch the Mohr’s circle as shown in Figure 1.

EBK MECHANICS OF MATERIALS, Chapter 7.2, Problem 38P , additional homework tip  1

Refer to Figure 1.

Calculate the principle plane (θp) as shown below.

tan2θp=FXFCtan2θp=50402θp=tan1(1.25)2θp=51.34°

Calculate the angle φ as shown below.

φ=2θp2θ

Substitute 51.34° for 2θp and 25° for θ

φ=51.34°2×25°=1.34°

Calculate the normal stress along x direction (σx) as shown below.

σx=σavg+Rcosφ (1)

Substitute 40MPa for σavg, 64.031MPa for R, and 1.34° for θ in Equation (1).

σx=40+64.031cos1.34°=40+64.01=24MPa

Hence, the normal stress σx=24MPa_.

Calculate the normal stress along y direction (σy) as shown below.

σy=σavgRcosφ (2)

Substitute 40MPa for σavg, 64.031MPa for R, and 1.34° for θ in Equation (2).

σy=4064.031cos1.34°=4064.01=104MPa

Hence, the normal stress σy=104MPa_.

Calculate the shear stress (τxy) as shown below.

τxy=Rsinφ (3)

Substitute 64.031MPa for R and 1.34° for θ in Equation (3).

τxy=64.031sin1.34°=1.5MPa

Therefore, the shear stress τxy=1.5MPa_.

(b)

Expert Solution
Check Mark
To determine

The normal and shearing stresses after the element has been rotated through 10° counter clockwise using Mohr’s circle.

Answer to Problem 38P

The normal stresses are σx=19.51MPa_ and σy=60.49MPa_.

The shear stress is τxy=60.67MPa_.

Explanation of Solution

Given information:

The stress component along x direction σx=0.

The stress component along y direction σy=80MPa.

The shear stress component τxy=50MPa.

The orientation of the principal plane θ=10°.

Calculation:

Refer to part (a).

Coordinates of the reference point X=(0,50MPa)

Coordinates of the reference point Y=(80MPa,50MPa)

The principal plane 2θp=51.34°.

The average normal stress σavg=40MPa.

The radius of the Mohr’s circle R=64.031MPa.

Sketch the Mohr’s circle as shown in Figure 2.

EBK MECHANICS OF MATERIALS, Chapter 7.2, Problem 38P , additional homework tip  2

Refer to Figure 2.

Calculate the angle φ as shown below.

φ=2θ+2θp

Substitute 51.34° for 2θp and 10° for θ

φ=2×10°+51.34°=71.34°

Calculate the normal stress along x direction (σx) as shown below.

Substitute 40MPa for σavg, 64.031MPa for R, and 71.34° for θ in Equation (1).

σx=40+64.031cos71.34°=40+20.49=19.51MPa

Hence, the normal stress σx=19.51MPa_.

Calculate the normal stress along y direction (σy) as shown below.

Substitute 40MPa for σavg, 64.031MPa for R, and 71.34° for θ in Equation (2).

σy=4064.031cos71.34°=4020.49=60.49MPa

Hence, the normal stress σy=60.49MPa_.

Calculate the shear stress (τxy) as shown below.

τxy=Rsinφ (3)

Substitute 64.031MPa for R and 71.34° for θ in Equation (3).

τxy=64.031sin71.34°=60.67MPa

Therefore, the shear stress τxy=60.67MPa_.

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Chapter 7 Solutions

EBK MECHANICS OF MATERIALS

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