Model the structural framework by finite element method


I) Assignment Objectives:

1) To investigate the axial forces, stresses and strains in the structural frame-work by experiments;

2) To develop a finite element model using MATLAB software to calculate the nodal displacements, axial force, strain and stress in each member and their validation with experimental results;

3) To compare some aspect of the performance of structures fabricated from welded steel extruded aluminium and Carbon Fibre Reinforced Plastics (CFRP).

II) Experimental Apparatus:

The structural framework made from stainless steel member is available at the Solid Mechanics Lab QB 1.05a. A sketch of the configuration, boundary conditions and loading is shown in Figure 1. Laboratory technical staff will be avail- able during each session to assist you for performing experiments. At the end of the lab session, you should have measured strains in each structural member for the applied load of 500 N.

Compile your experimental results in tabulated form, refer lab sheet. You should submit the signed lab sheet along with the final report. Failure to submit the signed lab sheet will result in losing the marks correspond to the experimental section of this coursework. Refer manufacture guide, available in the lab, to learn more about the structural assembly, strain and force measuring system.

III) Finite element modelling:

You should model the structural framework by using the finite element method. For this, you will use MATLAB software to write code to predict the axial forces, stresses and strains in the structural framework as shown in Figure 1. This will allow you to compare the experimental results.

You will also submit the MATLAB code (as an Appendix to the report) used to model the structural framework.

The prime characteristics of the MATLAB program should be:

1. The MATLAB code should show clearly the inputs and outputs.

2. It should include sufficient comments to explain each steps.

3. Clarity on each step involved from elemental stiffness matrix.

4. Assembly of elemental stiffness matrix.

5. Solve for nodal displacements, elemental stress & strains and forces.

IV) Performance Index:

Having validated your finite element program, you should be able to use the same to compare some aspect of the performance of structures fabricated from the material listed in the Table 1. Consider the following questions to rank the materials according to the performance metric.

1) What is the minimum diameter that will withstand the 10kN load if you fabricate the structural members made from the materials listed in the Table 1?

2) Considering the factor of safety 3, which material you will choose for minimum weight design? You will need to estimate the mass of the structural member for chosen cross-section details.

3) What material you will choose for the minimum cost design?

Table: Properties of the 3 different materials for performance index comparison for the Truss configuration shown in Figure.

V) Report format:

The report should be concisely written and not more than 10 pages. An ideal report contains the following sections.

1. The Title page including your name, P-number. The Summary should contain a very brief resume of what you have done, why you have done it and what you have concluded - all in not much more than 100 words.

2. An Introduction and Objectives in which you briefly explain the background to the work to be described and justify why the investigation is worth carrying out. Your statement of the objectives of the experiments can be based on the given in the course work sheet.

3. Experimental section - there is no need to repeat all the details of the Apparatus and experimental method, however, you should give a brief account of the procedure that you are used to measure the axial strains in each structural member. You should include the signed copy of the lab sheet as a proof that you have carried out the experiments in the lab.

4. The best way to present the numerical data in the section on Results is in tabular form- think about the form of the table it would be best to use: tables, like diagrams, should be numbered and have caption to explain what they are.

5. It is good practice to separate the presentation of results from their Discussion: this section should include a comparison between what you have ob- served in the experiments, compared to what you have predicted using the finite element method. Any significant variation should be the subject of the comments.

6. Consider the following questions to rank the materials;

A) What is the minimum diameter that will withstand the 1 0kN load if you fabricate the structural members made from the materials listed in the Table 1?

B) Considering the factor of safety 3, which material you will choose for minimum weight design? Clue - You will need to estimate the mass of the structural member for chosen cross-section details.

C) What material you will choose for the minimum cost design?

VI) Assessment Criteria:

1. Presentation of experimental results for stainless-steel structural members. This should include the measured strains and calculated forces in each structural member for the applied load of 500N.

2. A comparative analysis, in terms of axial strains and forces between the experiments and prediction by using finite element MATLAB code.

3. Discussion about the material rankings, weighing up the advantages/disadvantages of each material in terms of minimum weight and minimum cost when considering factor of safety.

4. Conclusion about the appropriate cross-section and right material chosen for fabricating the structural framework for each design criteria.

5. The course work report is presented in a professional manner with clear content, introduction and all relevant sections as per the guidelines stated in this document.

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