An extruded polymer beam is subjected to a bending moment M. The length of the beam is L = 680 mm. The cross-sectional dimensions of the beam are b1 = 33 mm, d1 = 93 mm, b2 = 20 mm, d2 = 20 mm, and a = 6.5 mm. For this material, the allowable tensile bending %3D stress is 16 MPa, and the allowable compressive bending stress is 9 MPa. Determine the largest moment M that can be applied as shown to the beam.
An extruded polymer beam is subjected to a bending moment M. The length of the beam is L = 680 mm. The cross-sectional dimensions of the beam are b1 = 33 mm, d1 = 93 mm, b2 = 20 mm, d2 = 20 mm, and a = 6.5 mm. For this material, the allowable tensile bending %3D stress is 16 MPa, and the allowable compressive bending stress is 9 MPa. Determine the largest moment M that can be applied as shown to the beam.
Materials Science And Engineering Properties
1st Edition
ISBN:9781111988609
Author:Charles Gilmore
Publisher:Charles Gilmore
Chapter6: Introduction To Mechanical Properties
Section: Chapter Questions
Problem 6.3P: Compare the engineering and true secant elastic moduli for the natural rubber in Example Problem 6.2...
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Transcribed Image Text:An extruded polymer beam is subjected to a bending moment M. The length of the beam
is L = 680 mm. The cross-sectional dimensions of the beam are b1 = 33 mm, d1 = 93 mm,
b2 = 20 mm, d2 = 20 mm, and a = 6.5 mm. For this material, the allowable tensile bending
stress is 16 MPa, and the allowable compressive bending stress is 9 MPa. Determine the
%3D
largest moment M that can be applied as shown to the beam.
b2
M
d2
d1
| A
B
L
b1
Answer:
M =
i
N•m
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