However, the finite-element method depends heavily on the processing power of computers and is more applicable to structures of arbitrary size and complexity. The finite element approach is actually a numerical method for solving differential equations generated by theories of mechanics such as elasticity theory and strength of materials. The first two make use of analytical formulations which apply mostly simple linear elastic models, leading to closed-form solutions, and can often be solved by hand. There are three approaches to the analysis: the mechanics of materials approach (also known as strength of materials), the elasticity theory approach (which is actually a special case of the more general field of continuum mechanics), and the finite element approach. Advanced structural analysis may examine dynamic response, stability and non-linear behavior. This information is then compared to criteria that indicate the conditions of failure. The results of such an analysis typically include support reactions, stresses and displacements. To perform an accurate analysis a structural engineer must determine information such as structural loads, geometry, support conditions, and material properties. There are many different types of live loads like building loads, highway bridge loads, railroad bridge loads, impact loads, wind loads, snow loads, earthquake loads, and other natural loads. The second type of loads are live loads which vary in their magnitude and location. For example, columns, beams, girders, the floor slab, roofing, walls, windows, plumbing, electrical fixtures, and other miscellaneous attachments. The first type of loads are dead loads that consist of the weights of the various structural members and the weights of any objects that are permanently attached to the structure. There are two types of loads that structure engineering must encounter in the design. There are two types of codes: general building codes and design codes, engineers must satisfy all of the code's requirements in order for the structure to remain reliable. The design loading for a structure is often specified in building codes. Structural design, therefore begins with specifying loads that act on the structure. Once the dimensional requirement for a structure have been defined, it becomes necessary to determine the loads the structure must support. The structural elements guiding the systemic forces through the materials are not only such as a connecting rod, a truss, a beam, or a column, but also a cable, an arch, a cavity or channel, and even an angle, a surface structure, or a frame.
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It is important for a structural engineer to be able to classify a structure by either its form or its function, by recognizing the various elements composing that structure.
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Other branches of engineering work on a wide variety of non-building structures.Ī structural system is the combination of structural elements and their materials. To design a structure, an engineer must account for its safety, aesthetics, and serviceability, while considering economic and environmental constraints. Important examples related to Civil Engineering include buildings, bridges, and towers and in other branches of engineering, ship and aircraft frames, tanks, pressure vessels, mechanical systems, and electrical supporting structures are important. 5 Methods using numerical approximationĪ structure refers to a body or system of connected parts used to support a load.3.1.2.1 Method 1: Ignore the right side.
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3 Strength of materials methods (classical methods).