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![Page 1: Mechanics of Materials Lab - University of Washingtoncourses.washington.edu/me354/lecture/MOM_Lec_10.pdfJiangyu Li, University of Washington Assignment • 3.5-1 A hollow aluminum](https://reader034.vdocument.in/reader034/viewer/2022052017/602fc535bd1eeb3f26696027/html5/thumbnails/1.jpg)
Jiangyu Li, University of Washington
Lecture 10Torsion
Mechanical Behavior of Materials Section 4.9.3-4.9.4
Jiangyu LiUniversity of Washington
Mechanics of Materials Lab
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Jiangyu Li, University of Washington
©2001 Brooks/Cole, a division of Thomson Learning, Inc. Thomson Learning™ is a trademark used herein under license.
Fig. 3-3 Deformations of a circular bar in pure torsion.
Angle of Twist
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Jiangyu Li, University of Washington
Fig. 3-4 Deformation of an element of length dx cut from a bar in torsion.
©2001 Brooks/Cole, a division of Thomson Learning, Inc. Thomson Learning™ is a trademark used herein under license.
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Jiangyu Li, University of Washington
©2001 Brooks/Cole, a division of Thomson Learning, Inc. Thomson Learning™ is a trademark used herein under license.
Fig. 3-5 Shear strains in a circular tube.
Shear Strain
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Jiangyu Li, University of Washington©2001 Brooks/Cole, a division of Thomson Learning, Inc. Thomson Learning™ is a trademark used herein under license.
Shear Stress
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Jiangyu Li, University of Washington
©2001 Brooks/Cole, a division of Thomson Learning, Inc. Thomson Learning™ is a trademark used herein under license.
Fig. 3-7 Longitudinal and transverse shear stresses in a circular bar subjected to torsion.
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Jiangyu Li, University of Washington
©2001 Brooks/Cole, a division of Thomson Learning, Inc. Thomson Learning™ is a trademark used herein under license.
Torque
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Jiangyu Li, University of Washington
©2001 Brooks/Cole, a division of Thomson Learning, Inc. Thomson Learning™ is a trademark used herein under license.
Fig. 3-10 Circular tube in torsion.
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Jiangyu Li, University of Washington©2001 Brooks/Cole, a division of Thomson Learning, Inc. Thomson Learning™ is a trademark used herein under license.
Fig. 3-20 Stresses acting on a stress element cut from a bar in torsion (pure shear).
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Jiangyu Li, University of Washington
©2001 Brooks/Cole, a division of Thomson Learning, Inc. Thomson Learning™ is a trademark used herein under license.
Fig. 3-23 Stress elements oriented at θ = 0 and θ = 45° for pure shear.
Principal Stress
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Jiangyu Li, University of Washington
©2001 Brooks/Cole, a division of Thomson Learning, Inc. Thomson Learning™ is a trademark used herein under license.
Fig. 3-25 Strains in pure shear: (a) shear distortion of an element oriented at θ = 0, and (b) distortion of an element oriented at θ = 45°.
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Jiangyu Li, University of Washington
Torsion Test
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Jiangyu Li, University of Washington
©2001 Brooks/Cole, a division of Thomson Learning, Inc. Thomson Learning™ is a trademark used herein under license.
Fig. 3-24 Torsion failure of a brittle material by tension cracking along a 45° helical surface.
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Jiangyu Li, University of Washington
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Jiangyu Li, University of Washington
©2001 Brooks/Cole, a division of Thomson Learning, Inc. Thomson Learning™ is a trademark used herein under license.
Fig. 3-34 Prismatic bar in pure torsion.
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Jiangyu Li, University of Washington
Strain Energy
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Jiangyu Li, University of Washington
Torsion of Thin Tube
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Jiangyu Li, University of Washington
Assignment• 3.5-1 A hollow aluminum shaft has outside diameter d2=4.0 in,
and inside diameter d1=2.0 in. When twisted by torque T, the shaft has an angle of twist per unit distance equal to 0.62o/ft. The shear modulus of the aluminum is G=4.0x106 psi. (a) what is the maximum tensile stress in the shaft? (b) what is the magnitude of the applied torque T?
• 3.5-4 A solid circular bar of diameter d=50 mm is twisted in a testing machine until the applied torque reaches T=1300 T.m . At this value of torque, a strain gage oriented at 45o to the axis of the bar gives a reading ε=331x10-6. What is the shear modulus?