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Structural Efficiency

Structural Efficiency. Dakota White, Kyle Perry CEA A-day P.M. Image of structure . Intro .

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Structural Efficiency

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  1. Structural Efficiency Dakota White, Kyle Perry CEA A-day P.M.

  2. Image of structure

  3. Intro • Structural engineers face the challenge of designing structures that can support not only the weight of the structure itself but other loads as well, such as forces caused by people, furniture, snow, wind, and earthquakes. The structural framing system should be designed to carry these loads in an efficient manner. Because the cost of construction materials used to build a structural system is often based on the weight of the materials, it is cost effective to use the least amount of material necessary to provide a structure that can safely carry the applied loads. The most efficient structures are strong and lightweight. • One measure of the cost effectiveness of a structure is structural efficiency. Although structural efficiency can be defined in many ways, in this activity we will define structural efficiency rating as the ratio of the load applied to the structure to the weight of the structure itself. • It is important to understand that in this definition, the maximum design load applied to the structure is not necessarily the maximum load that the structure can carry. In order to provide an efficient design, the structural engineer must design the structure to carry the loads that are anticipated to occur, called the design load. So efficiency is based on maximum design load, not on the actual load that the structure can carry, which may be much higher than the design load. Of course, often the most efficient structure will be one that has a maximum capacity equal to the maximum design load.

  4. Competition Results

  5. Structural Efficiency • 14 lbs. = 6342 g = 275.7% 23 g 23 g • 275.7% of its weight.

  6. Conclusion • 1. What factors could affect the choice of materials for the structural frame of a building? How tall the building was going to be, how wide the building is, and what it is used for • 2. Is it advisable to compare the Structural Efficiency Rating for two different proposed framing systems for a building if one system uses structural steel framing and the other uses cast-in-place concrete? Why or why not? If not, what would be a better comparison to determine efficiency? It would be advisable to do that, but you will need to look at the cost of both to find your final answer. • 3. Why would a structural engineer be more interested in the Structural Efficiency Rating using the maximum design load than the efficiency determined by using the maximum load capacity of the structure? Because you need a safety factor, the maximum design load is more than the maximum load capacity. And if you do the maximum load capacity you are using the weight that is going to be on it every day and there will always people going over the maximum load capacity.

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