The rotor shaft of a helicopter (see figure part a) drives the rotor blades that provide the lifting force and is subjected to a combination of torsion and axial loading (see figure part b). It is known that normal stress sy 68 MPa and shear stress txy 100 MPa. Using Mohr’s circle, determine the following. (a) The stresses acting on an element oriented at a counterclockwise angle from the x axis. (b) Find the maximum tensile stress, maximum compressive stress, and maximum shear stress in the shaft. Show all results on sketches of properly oriented element

Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
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The rotor shaft of a helicopter (see figure part a) drives the rotor blades that provide the lifting force and is subjected to a combination of torsion and axial loading (see figure part b). It is known that normal stress sy 68 MPa and shear stress txy 100 MPa. Using Mohr’s circle, determine the following. (a) The stresses acting on an element oriented at a counterclockwise angle from the x axis. (b) Find the maximum tensile stress, maximum compressive stress, and maximum shear stress in the shaft. Show all results on sketches of properly oriented elements.

Problem 7.4-8 The rotor shaft of a helicopter (see
figure part a) drives the rotor blades that provide
the lifting force and is subjected to a combination
of torsion and axial loading (see figure part b).
It is known that normal stress ơ, = 68 MPa
and shear stress Try = -100 MPa. Using Mohr's
circle, determine the following.
68 MPа
(a) The stresses acting on an element oriented
at a counterclockwise angle 0
the x axis.
= 22.5° from
100 MPа
(b) Find the maximum tensile stress, maximum
compressive stress, and maximum shear
stress in the shaft.
(b)
Show all results on sketches of properly oriented elements.
Transcribed Image Text:Problem 7.4-8 The rotor shaft of a helicopter (see figure part a) drives the rotor blades that provide the lifting force and is subjected to a combination of torsion and axial loading (see figure part b). It is known that normal stress ơ, = 68 MPa and shear stress Try = -100 MPa. Using Mohr's circle, determine the following. 68 MPа (a) The stresses acting on an element oriented at a counterclockwise angle 0 the x axis. = 22.5° from 100 MPа (b) Find the maximum tensile stress, maximum compressive stress, and maximum shear stress in the shaft. (b) Show all results on sketches of properly oriented elements.
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