A composite cantilever beam 2 m long is made core 50 mm wide and 100 mm deep completely enclosed by steel 10 mm thick all around. The steel and aluminum are totally bonded together. If the maximum allowable stress in the aluminum is 60 MPa, determine the maxi- mum allowable concentrated force which the beam can support at the free end and the corresponding maximum deflection. For the aluminum and steel let E = 70 and E. = 210 GPa, respectively.

Elements Of Electromagnetics
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Author:Sadiku, Matthew N. O.
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Fmax= 13.14 kN Deflection max = 22.9mm
A composite cantilever beam 2 m long is made of a rectangular aluminum
core 50 mm wide and 100 mm deep completely enclosed by steel 10 mm
thick all around. The steel and aluminum are totally bonded together. If the
maximum allowable stress in the aluminum is 60 MPa, determine the maxi-
mum allowable concentrated force which the beam can support at the free end
and the corresponding maximum deflection. For the aluminum and steel let
E = 70 and E, = 210 GPa, respectively.
Transcribed Image Text:A composite cantilever beam 2 m long is made of a rectangular aluminum core 50 mm wide and 100 mm deep completely enclosed by steel 10 mm thick all around. The steel and aluminum are totally bonded together. If the maximum allowable stress in the aluminum is 60 MPa, determine the maxi- mum allowable concentrated force which the beam can support at the free end and the corresponding maximum deflection. For the aluminum and steel let E = 70 and E, = 210 GPa, respectively.
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