Q2) Layers of Brass, Steel and Aluminum are bonded together and formed section shown below. Cantilever beam is loaded at the tip with 50 kN. In the cross section height of brass is 50 mm, height of the steel is 350 mm and height of the aluminum is 100 mm. Modulus of elasticity for the materials are given as; Brass, Ebr= 105 GPa, Steel, Est = 200 GPa and Aluminum, Eal = 70 GPa. Find the maximum axial stresses under given loading for Brass, Steel and Aluminum, separately. %3D Brass 50 kN -500 mm 50 mm Steel 350 mm Steel Aluminum 100 mm Aluminum Cross Section of the -4 m Beam Fixed Side view of the Beam Support
Q2) Layers of Brass, Steel and Aluminum are bonded together and formed section shown below. Cantilever beam is loaded at the tip with 50 kN. In the cross section height of brass is 50 mm, height of the steel is 350 mm and height of the aluminum is 100 mm. Modulus of elasticity for the materials are given as; Brass, Ebr= 105 GPa, Steel, Est = 200 GPa and Aluminum, Eal = 70 GPa. Find the maximum axial stresses under given loading for Brass, Steel and Aluminum, separately. %3D Brass 50 kN -500 mm 50 mm Steel 350 mm Steel Aluminum 100 mm Aluminum Cross Section of the -4 m Beam Fixed Side view of the Beam Support
Chapter2: Loads On Structures
Section: Chapter Questions
Problem 1P
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Transcribed Image Text:Q2) Layers of Brass, Steel and Aluminum are bonded together and formed section shown
below. Cantilever beam is loaded at the tip with 50 kN. In the cross section height of brass
is 50 mm, height of the steel is 350 mm and height of the aluminum is 100 mm. Modulus
of elasticity for the materials are given as; Brass, Ebr= 105 GPa, Steel, Est = 200 GPa and
Aluminum, Eal = 70 GPa. Find the maximum axial stresses under given loading for Brass,
Steel and Aluminum, separately.
Brass
50 kN
500 mm
50 mm
Steel
350 mm
Steel
Aluminum 100 mm
Aluminum
Cross Section of the
-4 m
Beam
Fixed
Side view of the Beam
Support
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