Given the following structure that is made of Aluminum, subjected to a tensile load equal to 56 kN. Given that the original axial length is 500 mm and that the change in axial length is equal to 0.120 mm, while the change in length in the x- direction -0.085 mm.

Given the following structure that is made of Aluminum, subjected to a tensile load equal to 56 kN. Given that the original axial length is 500 mm and that the change in axial length is equal to 0.120 mm, while the change in length in the x- direction -0.085 mm.

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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Concept explainers

Material Properties

Construction in civil engineering demands high strength, durability, and longevity. These targets can be achieved by better design and analysis, along with the correct choice of materials. Different materials have different properties and hence, they respond and performs differently under the various condition of external loadings. It is therefore a critical task of an engineer to select the right material based on the property that the material is supposed to function in real-time. When speaking about the property, there are different categories of material properties like chemical property, physical property, mechanical property, electrical property, magnetic property, thermal property, etc. These material properties form the basis of material selection in various applications.

Question

100%

Given the following structure that is made of Aluminum, subjected to a tensile
load equal to 56 kN. Given that the original axial length is 500 mm and that the
change in axial length is equal to 0.120 mm, while the change in length in the x-
direction -0.085 mm.

The radius of each part are given respectively as follows, rab = 24mm, râc =
52mm, rcp = 33mm, while the hollow shaft DE has an outer radius equal to
"dE out = 24mm and an inner radius equal to rde in = 18mm.
Determine the change in angle of shaft caused by these torques.
Problem 2 :
Given the following structure that is made of Aluminum, subjected to a tensile
load equal to 56 kN. Given that the original axial length is 500 mm and that the
change in axial length is equal to 0.120 mm, while the change in length in the x-
direction -0.085 mm.
F= 56 kN
y
3/4
for which the stress-strain curve is given as follows ;
350
Aluminum
300
250
200
Mild steel
150
100
50
0.005
0.01
0.015
0.02
0.025
Strain
Patel, V. I., Liang, Q. Q., & Hadi, M. N. (2020). Numerical simulations of circular high strength concrete-filled aluminum
tubular short columns incorporating new concrete confinement model. Thin-Walled Structures, 147, 106492.
1) Find the Poisson's ratio.
2) Find the Young's Modulus value from the graph.
3) Find the Bulk Modulus.
4) Find the Modulus of Rigidity.
5) Given that the hydrostatic pressure is p = 140 MPa, find the change in
volume AV.
Stress (MPa)

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