Two solid circular shafts are connected through a flange bolt coupling consisting of 3 circular bolt rows. The free ends of the shafts are to be Solid Shafts Diameter (mm) Length (m) Shear Modulus (GPa) Shaft A Shaft B 65 66 3 3.8 81 84.6 Flange-bolt coupling Bolt Circle Diameter (mm) Bolt Alowable Shear Stress (MPa) Bolt Diameter Shear Modulus Number of Bolt Row (mm) (GPa) Bolts 1 95 14 77 35 4 2 116 17 97 42 10 3 135 13 93 49 14 A Calculate the torque capacity of the flange-bolt coupling (kN-m). B. Calculate the stresses in both shaft if the torque capacity is applied at both ends (MPa). C. Calculate the total angle of twist (in degrees).
Two solid circular shafts are connected through a flange bolt coupling consisting of 3 circular bolt rows. The free ends of the shafts are to be Solid Shafts Diameter (mm) Length (m) Shear Modulus (GPa) Shaft A Shaft B 65 66 3 3.8 81 84.6 Flange-bolt coupling Bolt Circle Diameter (mm) Bolt Alowable Shear Stress (MPa) Bolt Diameter Shear Modulus Number of Bolt Row (mm) (GPa) Bolts 1 95 14 77 35 4 2 116 17 97 42 10 3 135 13 93 49 14 A Calculate the torque capacity of the flange-bolt coupling (kN-m). B. Calculate the stresses in both shaft if the torque capacity is applied at both ends (MPa). C. Calculate the total angle of twist (in degrees).
Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
ChapterMA: Math Assessment
Section: Chapter Questions
Problem 1.1MA
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![Two solid circular shafts are connected through a flange bolt coupling consisting of 3 circular bolt rows. The free ends of the shafts are to be subjected by equal torque.
Solid Shafts
Diameter (mm)
Length (m)
Shear Modulus (GPa)
Shaft A
Shaft B
65
66
3
3.8
81
84.6
Flange-bolt coupling
Bolt Circle
Diameter (mm)
Bolt Alowable Shear
Stress (MPa)
Bolt Diameter
Shear Modulus
Number of
Bolt Row
(mm)
(GPa)
Bolts
1
95
14
77
35
4
2
116
17
97
42
10
3
135
13
93
49
14
A Calculate the torque capacity of the flange-bolt coupling (kN-m).
B. Calculate the stresses in both shaft if the torque capacity is applied at both ends (MPa).
C. Calculate the total angle of twist (in degrees).](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fbd58cbe8-2641-43ce-9ac1-a30ca4cfcd31%2Ff9888f2b-1826-4ffe-90c6-0dd583b73d17%2Fws6ktcxb_processed.png&w=3840&q=75)
Transcribed Image Text:Two solid circular shafts are connected through a flange bolt coupling consisting of 3 circular bolt rows. The free ends of the shafts are to be subjected by equal torque.
Solid Shafts
Diameter (mm)
Length (m)
Shear Modulus (GPa)
Shaft A
Shaft B
65
66
3
3.8
81
84.6
Flange-bolt coupling
Bolt Circle
Diameter (mm)
Bolt Alowable Shear
Stress (MPa)
Bolt Diameter
Shear Modulus
Number of
Bolt Row
(mm)
(GPa)
Bolts
1
95
14
77
35
4
2
116
17
97
42
10
3
135
13
93
49
14
A Calculate the torque capacity of the flange-bolt coupling (kN-m).
B. Calculate the stresses in both shaft if the torque capacity is applied at both ends (MPa).
C. Calculate the total angle of twist (in degrees).
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