= A solid 4340 HR Steel tie rod with diameter drod = 27.5 mm and length Irod = 950 mm is employed to compress a 2024-T4 aluminum bushing with outer diameter do 75 mm and length Lbushing = 600 mm as shown. If F = 50 kN, determine the minimum wall thickness of the bushing based on the below design requirements: • the displacement of the bottom of the tie rod with respect to the fixed horizontal surface may not exceed Stotal = 0.9 mm • the normal stress of the bushing may not exceed the yield strength of the bushing material Lbushing tmin =, number (rtol-0.01, atol=1e-05) do drod F mm Lrod

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**Educational Content: Analysis of Tie Rod and Bushing System** **Problem Description:** A solid 4340 HR Steel tie rod with diameter \(d_{\text{rod}} = 27.5 \, \text{mm}\) and length \(L_{\text{rod}} = 950 \, \text{mm}\) is employed to compress a 2024-T4 aluminum bushing with outer diameter \(d_o = 75 \, \text{mm}\) and length \(L_{\text{bushing}} = 600 \, \text{mm}\) as shown in the diagram. If \(F = 50 \, \text{kN}\), determine the minimum wall thickness of the bushing based on the following design requirements: - The displacement of the bottom of the tie rod with respect to the fixed horizontal surface may not exceed \(\delta_{\text{total}} = 0.9 \, \text{mm}\). - The normal stress of the bushing may not exceed the yield strength of the bushing material. **Diagram Explanation:** The diagram showcases a vertical arrangement where the tie rod moves downward, compressing the bushing against a surface. The components and measurements indicated are: - **Tie Rod**: Represented with a solid circle at the bottom, indicating force \(F\) acting downwards. The length \(L_{\text{rod}}\) and diameter \(d_{\text{rod}}\) are marked. - **Bushing**: The bushing is represented as a hollow cylinder surrounding the tie rod, with the length \(L_{\text{bushing}}\) and outer diameter \(d_o\) specified. The minimum wall thickness is to be calculated. **Objective:** Calculate the minimum wall thickness \(t_{\text{min}}\) that satisfies: - Total displacement requirement of \(0.9 \, \text{mm}\). - Stress requirements under the applied force of \(50 \, \text{kN}\). **Formula:** \[ t_{\text{min}} = \text{number (rtol=0.01, atol=1e-05)} \, \text{mm} \] This presents a computational representation indicating how to determine \(t_{\text{min}}\) with a relative tolerance of 1% and an absolute tolerance of \(1 \times 10^{-5}\).