The compound shaft shown consists of a solid shaft AB made of bronze [G = 40 GPa], and a solid shaft BC made of steel [G = 85 GPa]. The compound shaft is subjected to torques TB = 700 N.m at point B, and TC = 200 N.m at point C, acting in opposite directions. [LAB = 900 mm, LBC = 1200 mm, dAB = 35 mm, dBC = 25 mm] Determine (a) the internal torques in shafts AB and BC, (b) the shear stresses in shafts AB and BC, and (c) the angle of twist at point C.
The compound shaft shown consists of a solid shaft AB made of bronze [G = 40 GPa], and a solid shaft BC made of steel [G = 85 GPa]. The compound shaft is subjected to torques TB = 700 N.m at point B, and TC = 200 N.m at point C, acting in opposite directions. [LAB = 900 mm, LBC = 1200 mm, dAB = 35 mm, dBC = 25 mm] Determine (a) the internal torques in shafts AB and BC, (b) the shear stresses in shafts AB and BC, and (c) the angle of twist at point C.
Materials Science And Engineering Properties
1st Edition
ISBN:9781111988609
Author:Charles Gilmore
Publisher:Charles Gilmore
Chapter7: Making Strong Materials
Section: Chapter Questions
Problem 49CQ
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Question
The compound shaft shown consists of a solid shaft AB made of
bronze [G = 40 GPa], and a solid shaft BC made of steel [G = 85 GPa].
The compound shaft is subjected to torques TB = 700 N.m at point B,
and TC = 200 N.m at point C, acting in opposite directions.
[LAB = 900 mm, LBC = 1200 mm, dAB = 35 mm, dBC = 25 mm]
Determine (a) the internal torques in shafts AB and BC, (b) the shear
stresses in shafts AB and BC, and (c) the angle of twist at point C.
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