An aluminum alloy pipe AB [EAB = 12,000 ksi]with a cross-sectional area of AAB = 6.40 in.2 isconnected at flange B to a steel pipe [EBC =50,000 ksi] with a cross-sectional area of ABC= 7.60 in.2. The assembly is connected to rigidsupports at A and C.[LAB = 86 in.; LBC = 146 in.; PB = 177 kips ⇾]Determine the normal stresses in aluminumpipe AB and steel pipe BC. (1)(2)BL2

Answered: An aluminum alloy pipe AB [EAB = 12,000…

Structural Analysis

6th Edition

ISBN:9781337630931

Author:KASSIMALI, Aslam.

Publisher:KASSIMALI, Aslam.

Chapter2: Loads On Structures

Section: Chapter Questions

Problem 1P

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Question

An aluminum alloy pipe AB [E_AB = 12,000 ksi]
with a cross-sectional area of A_AB = 6.40 in.² is
connected at flange B to a steel pipe [E_BC =
50,000 ksi] with a cross-sectional area of A_BC
= 7.60 in.². The assembly is connected to rigid
supports at A and C.
[L_AB = 86 in.; L_BC = 146 in.; P_B = 177 kips ⇾]
Determine the normal stresses in aluminum
pipe AB and steel pipe BC.

Expert Solution

Step 1

To determine the normal stress in pipes AB and BC.

Given,

Modulus of elasticity of aluminum, E_AB = 12000 ksi

Cross-sectional area of pipe AB, A_AB = 6.4 in²

Length of pipe AB, L_AB= 86 in

Modulus of elasticity of steel, E_BC = 50000 ksi

Cross-sectional area of pipe BC, A_BC = 7.6 in²

Length of pipe BC, L_BC= 146 in

Load acting at point B, P_B = 177 kips

The stress in the pipes can be obtained by using the conditions of static equilibrium and compatibility.

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