EBK MECHANICS OF MATERIALS
EBK MECHANICS OF MATERIALS
7th Edition
ISBN: 8220102804487
Author: BEER
Publisher: YUZU
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Chapter 7.2, Problem 31P

Solve Probs. 7.5 and 7.9, using Mohr's circle.

7.5 through 7.8 For the given state of stress, determine (a) the principal planes, (b) the principal stresses.

7.9 through 7.12 For the given state of stress, determine (a) the orientation of the planes of maximum in-plane shearing stress, (b) the maximum in-plane shearing stress, (c) the corresponding normal stress.

Chapter 7.2, Problem 31P, Solve Probs. 7.5 and 7.9, using Mohr's circle. 7.5 through 7.8 For the given state of stress,

Fig. P7.5 and P7.9

(a)

Expert Solution
Check Mark
To determine

The principal planes of the state of stress using Mohr’s circle.

Answer to Problem 31P

The principal planes of the state of stress using Mohr’s circle is θa=37°and θb=53°_.

Explanation of Solution

Given information:

The stress component along x direction σx=60MPa.

The stress component along y direction σy=40MPa.

The shear stress component τxy=35MPa.

Calculation:

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

  • Find the center 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 60MPa for σx and 40MPa for σy.

σavg=60+(40)2=1002=50MPa

The centre of the circle is C=50MPa.

Coordinates of the reference point X.

X=(σx,τxy)

Substitute 60MPa for σx and 35MPa for τxy.

X=(60MPa,35MPa)

Coordinates of the reference point Y.

Y=(σy,τxy)

Substitute 40MPa for σx and 35MPa for τxy.

Y=(40MPa,35MPa)

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

R=(σxσavg)2+(τxy)2

Substitute 40MPa for σx, 50MPa for σavg, and 35MPa for τxy.

R=(40(50))2+(35)2=1,325=36.4MPa

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

EBK MECHANICS OF MATERIALS, Chapter 7.2, Problem 31P

Refer to Figure 1.

Calculate the angle β as shown below.

tanβ=GXCGtanβ=3510β=tan1(3.5)β=74.05°

Calculate the angle α as shown below.

α=180°β

Here, β is the angle of CX with respect to BC.

Substitute 74.05° for β.

α=180°74.05°=105.95°

Calculate the principal plane (θa) of the state of stress as shown below.

θb=12β

Substitute 74.05° for β.

θb=74.052=37.03°

Calculate the principal planes (θb) of the state of stress as shown below.

θa=12α

Substitute 105.95° for α.

θa=12×105.95°=52.975°=53°

Hence, the principal planes of the state of stress using Mohr’s circle is θa=37°and θb=53°_.

(b)

Expert Solution
Check Mark
To determine

The principal stresses of the state of stress using Mohr’s circle.

Answer to Problem 31P

The maximum principal stress is σmax=13.6MPa_.

The minimum principal stress is σmin=86.4MPa_.

Explanation of Solution

Given information:

The stress component along x direction σx=60MPa.

The stress component along y direction σy=40MPa.

The shear stress component τxy=35MPa.

Calculation:

Refer to part (a).

The average stress is σavg=50MPa.

The radius of the Mohr’s circle is R=36.4MPa.

Calculate the principal stresses (σmaxand σmin) as shown below.

σmax,min=σavg±R

Substitute 50MPa for σavg and 36.4MPa for R.

σmax,min=50±36.4

Calculate the maximum principal stress as shown below.

σmax=50+36.4=13.6MPa

Hence, the maximum principal stress is σmax=13.6MPa_.

Calculate the minimum principal stress as shown below.

σmin=5036.4=86.4MPa

Hence, the minimum principal stress is σmin=86.4MPa_.

(a’)

Expert Solution
Check Mark
To determine

The orientation of the planes of maximum in-plane shearing stress using Mohr’s circle.

Answer to Problem 31P

The orientation of the planes of maximum in-plane shearing stress is θd=8°and θe=98°_.

Explanation of Solution

Given information:

The stress component along x direction σx=60MPa.

The stress component along y direction σy=40MPa.

The shear stress component τxy=35MPa.

Calculation:

Refer to part (a).

The principal planes θa=53° and θb=37°.

Calculate the orientation of the planes of maximum in-plane shearing stress (θd) as shown below.

θd=θb+45°

Substitute 37° for θb.

θd=37°+45°=8°

Calculate the orientation of the planes of maximum in-plane shearing stress (θe) as shown below.

θe=θa+45°

Substitute 53° for θa.

θe=53°+45°=98°

Hence, the orientation of the planes of maximum in-plane shearing stress is θd=8°andθe=98°_.

(b’)

Expert Solution
Check Mark
To determine

The maximum in-plane shearing stress using Mohr’s circle.

Answer to Problem 31P

The maximum in-plane shearing stress is τmax=36.4MPa_.

Explanation of Solution

Given information:

The stress component along x direction σx=60MPa.

The stress component along y direction σy=40MPa.

The shear stress component τxy=35MPa.

Calculation:

Refer to part (a).

The maximum in-plane shearing stress is τmax=R=36.4MPa.

Hence, the maximum in-plane shearing stress is τmax=36.4MPa_.

(c)

Expert Solution
Check Mark
To determine

The normal stress using Mohr’s circle.

Answer to Problem 31P

The normal stress is σ=50MPa_.

Explanation of Solution

Given information:

The stress component along x direction σx=60MPa.

The stress component along y direction σy=40MPa.

The shear stress component τxy=35MPa.

Calculation:

Refer to part (a).

The average normal stress is σavg=50MPa.

Calculate the normal stress (σ) as shown below.

σ=σavg

Substitute 50MPa for σavg.

σ=50MPa

Therefore, the normal stress is σ=50MPa_.

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Chapter 7 Solutions

EBK MECHANICS OF MATERIALS

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Understanding Stress Transformation and Mohr's Circle; Author: The Efficient Engineer;https://www.youtube.com/watch?v=_DH3546mSCM;License: Standard youtube license