The strain components for a point in a body subjected to plane strain are &x = 1170 μe, &y= 290μe and Yxy -228 urad. Using Mohr's circle, determine the principal strains (Ep1 > Ep2), the maximum inplane shear strain Vip, and the absolute maximum shear strain Ymax at the point. Show the angle 8p (counterclockwise is positive, clockwise is negative), the principal strain deformations, and the maximum in-plane shear strain distortion in a sketch. Answers: Ep1 = Ep2 = Vip = Ymax = 0p= O με. με. urad. urad.

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The strain components for a point in a body subjected to plane strain are εx = 1170 με, εy = 290με and γxy = -228 μrad. Using Mohr’s circle, determine the principal strains (εp1 > εp2), the maximum inplane shear strain γip, and the absolute maximum shear strain γmax at the point. Show the angle θp (counterclockwise is positive, clockwise is negative), the principal strain deformations, and the maximum in-plane shear strain distortion in a sketch.
Yxy
The strain components for a point in a body subjected to plane strain are &x = 1170 μe, &y= 290με and
-228 μrad. Using Mohr's circle, determine the principal strains (Ep1 > Ep2), the maximum inplane shear strain Vip,
and the absolute maximum shear strain Ymax at the point. Show the angle 8p (counterclockwise is positive,
clockwise is negative), the principal strain deformations, and the maximum in-plane shear strain distortion in a
sketch.
Answers:
=
Ep1
Ep2 =
Vip =
Ymax =
Op=
°
με.
με.
urad.
urad.
Transcribed Image Text:Yxy The strain components for a point in a body subjected to plane strain are &x = 1170 μe, &y= 290με and -228 μrad. Using Mohr's circle, determine the principal strains (Ep1 > Ep2), the maximum inplane shear strain Vip, and the absolute maximum shear strain Ymax at the point. Show the angle 8p (counterclockwise is positive, clockwise is negative), the principal strain deformations, and the maximum in-plane shear strain distortion in a sketch. Answers: = Ep1 Ep2 = Vip = Ymax = Op= ° με. με. urad. urad.
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