Part 2: Displacement Method
Figs 2a and 2b show a suspended teahouse designed by David Jameson. The teahouse is made of bronze and glass and is in the form of a Japanese lantern. It hangs from two planar steel frames through four vertical steel bars. The two steel frames are laterally braced at the top and aside for stability. Note that the stairs are not attached to the teahouse.
Please answer the following questions:
(1) What is the load path of the structure?
(2) Assume that the total weight of the teahouse is 200 kN, and universal beam sections UB 533×210×109 and UB 457×152×82 are used for the horizontal and vertical frame members, respectively.
i) Use Slope-Deflection Equations to analyse one of the two frames, and calculate end moments of all frame members under the self-weight of the teahouse. Young’s modulus of steel is 200 GPa. Fixed boundary conditions are assumed. The self-weight of frame members can be neglected. The dimensions of the frame are given in Fig. 2c, and the UB section table is provided in Appendix A. Note that all frame members bend about their major axes.
ii) Use moment distribution method to prove that the end moments of all frame members calculated in i) are correct.
iii) Draw bending moment diagram and shear force diagram of one steel frame, corresponding to the self-weight of the teahouse
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The post CVE2323: Displacement Method- Figs 2a and 2b show a suspended teahouse designed by David Jameson: Structural Analysis 2, Coursework 1, UoN appeared first on Singapore Assignment Help.