A brass sleeve S is fitted over a steel bolt B, and the nut is tightened until it is just snug. The bolt has a diameter of dg = 25 mm. and the sleeve has inside and outside diameters of di = 26 mm and dz = 36 mm, respectively. d2 di Sleeve (S), dB Bolt (B) Calculate the temperature rise AT that is required to produce a compressive stress of 24 MPa in the sleeve. (Use material properties as follows: for the sleeve, as = 21 x 10-6/°C and Es = 200 GPa; for the bolt, aB = 10 x 10-6/*C and Eg = 400 GPa.) AT = *C (Round to the nearest whole number.)
A brass sleeve S is fitted over a steel bolt B, and the nut is tightened until it is just snug. The bolt has a diameter of dg = 25 mm. and the sleeve has inside and outside diameters of di = 26 mm and dz = 36 mm, respectively. d2 di Sleeve (S), dB Bolt (B) Calculate the temperature rise AT that is required to produce a compressive stress of 24 MPa in the sleeve. (Use material properties as follows: for the sleeve, as = 21 x 10-6/°C and Es = 200 GPa; for the bolt, aB = 10 x 10-6/*C and Eg = 400 GPa.) AT = *C (Round to the nearest whole number.)
Chapter2: Loads On Structures
Section: Chapter Questions
Problem 1P
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Transcribed Image Text:A brass sleeve S is fitted over a steel bolt B, and the nut is tightened until it is just snug. The bolt has a
diameter of dg = 25 mm. and the sleeve has inside and outside diameters of di = 26 mm and
dz = 36 mm, respectively.
d2
di
Sleeve (S),
dB
Bolt (B)
Calculate the temperature rise AT that is required to produce a compressive stress of 24 MPa in the sleeve.
(Use material properties as follows: for the sleeve, as = 21 x 10-6/°C and Es = 200 GPa; for the bolt,
aB = 10 x 10-6/*C and Eg = 400 GPa.)
AT =
*C (Round to the nearest whole number.)
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