Answer:
The total contraction of the bar is 1.228 mm
Explanation:
The parameters given are;
Length of aluminium bar = 600 mm
Diameter of aluminium bar = 40 mm
Diameter of hole in aluminium bar = 30 mm
Length of hole = 100 mm
Modulus of elasticity of aluminium = 85 GN/m²
Applied compressive load = 180 kN
[tex]\delta = \dfrac{P \times L}{A \times E}[/tex]
Where:
δ = Total contraction of the bar
A₁ for the hole section = [tex]\frac{1}{4 }\times (40^{2}-30^{2}) \times \pi = 549.78 \, mm^2[/tex]
A₂ for the solid section = [tex]\frac{1}{4 }\times 40^{2} \times \pi = 1256.64 \, mm^2[/tex]
L₁ = 100 mm
L₂ = 600 - 100 = 500 mm
[tex]\delta = \dfrac{P}{E} \times\left ( \dfrac{L_1}{A _1} + \dfrac{L_2}{A _2} \right ) = \dfrac{180000}{85000} \times\left ( \dfrac{100}{549.78} + \dfrac{500}{1256.64} \right ) = 1.228 \ mm[/tex]
The total contraction of the bar = 1.228 mm.
