Earthquake engineering Wikipedia. Earthquake engineering is an interdisciplinary branch of engineering that designs and analyzes structures, such as buildings and bridges, with earthquakes in mind. Its overall goal is to make such structures more resistant to earthquakes. An earthquake or seismic engineer aims to construct structures that will not be damaged in minor shaking and will avoid serious damage or collapse in a major earthquake. Earthquake engineering is the scientific field concerned with protecting society, the natural environment, and the man made environment from earthquakes by limiting the seismic risk to socio economically acceptable levels. Traditionally, it has been narrowly defined as the study of the behavior of structures and geo structures subject to seismic loading it is considered as a subset of structural engineering, geotechnical engineering, mechanical engineering, chemical engineering, applied physics, etc. However, the tremendous costs experienced in recent earthquakes have led to an expansion of its scope to encompass disciplines from the wider field of civil engineering, mechanical engineering and from the social sciences, especially sociology, political science, economics and finance. How to Build a House. Building your dream home can be one of the most exciting and rewarding projects you can undertake. Getting the opportunity to plan. Build Your Own Step Stool Wood Shed Door Framing Duramax 8x6 Shed Build Your Own Step Stool 10x8 Wood Shed Kit Free Barn Plans With Loft 16x20 Storage Building Plans. 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The main objectives of earthquake engineering are Foresee the potential consequences of strong earthquakes on urban areas and civil infrastructure. Design, construct and maintain structures to perform at earthquake exposure up to the expectations and in compliance with building codes. A properly engineered structure does not necessarily have to be extremely strong or expensive. It has to be properly designed to withstand the seismic effects while sustaining an acceptable level of damage. Seismic loadingeditSeismic loading means application of an earthquake generated excitation on a structure or geo structure. It happens at contact surfaces of a structure either with the ground,4 with adjacent structures,5 or with gravity waves from tsunami. The loading that is expected at a given location on the Earths surface is estimated by engineering seismology. It is related to the seismic hazard of the location. Seismic performanceeditEarthquake or seismic performance defines a structures ability to sustain its main functions, such as its safety and serviceability, at and after a particular earthquake exposure. A structure is normally considered safe if it does not endanger the lives and well being of those in or around it by partially or completely collapsing. A structure may be considered serviceable if it is able to fulfill its operational functions for which it was designed. Basic concepts of the earthquake engineering, implemented in the major building codes, assume that a building should survive a rare, very severe earthquake by sustaining significant damage but without globally collapsing. On the other hand, it should remain operational for more frequent, but less severe seismic events. Seismic performance assessmenteditEngineers need to know the quantified level of the actual or anticipated seismic performance associated with the direct damage to an individual building subject to a specified ground shaking. Such an assessment may be performed either experimentally or analytically. M3xivm1o7cbLj6txxeGaMFvUf4jMmxP.jpg' alt='Building Construction Process Step By Step Pdf' title='Building Construction Process Step By Step Pdf' />Experimental assessmenteditExperimental evaluations are expensive tests that are typically done by placing a scaled model of the structure on a shake table that simulates the earth shaking and observing its behavior. Such kinds of experiments were first performed more than a century ago. Only recently has it become possible to perform 1 1 scale testing on full structures. Hoffman Pro Bmx'>Hoffman Pro Bmx. Pokemon Game For Full Version. Due to the costly nature of such tests, they tend to be used mainly for understanding the seismic behavior of structures, validating models and verifying analysis methods. Thus, once properly validated, computational models and numerical procedures tend to carry the major burden for the seismic performance assessment of structures. AnalyticalNumerical assessmenteditSeismic performance assessment or seismic structural analysis is a powerful tool of earthquake engineering which utilizes detailed modelling of the structure together with methods of structural analysis to gain a better understanding of seismic performance of building and non building structures. The technique as a formal concept is a relatively recent development. In general, seismic structural analysis is based on the methods of structural dynamics. For decades, the most prominent instrument of seismic analysis has been the earthquake response spectrum method which also contributed to the proposed building codes concept of today. However, such methods are good only for linear elastic systems, being largely unable to model the structural behavior when damage i. Numerical step by step integration proved to be a more effective method of analysis for multi degree of freedom structural systems with significant non linearity under a transient process of ground motion excitation. Basically, numerical analysis is conducted in order to evaluate the seismic performance of buildings. Performance evaluations are generally carried out by using nonlinear static pushover analysis or nonlinear time history analysis. In such analyses, it is essential to achieve accurate non linear modeling of structural components such as beams, columns, beam column joints, shear walls etc. Thus, experimental results play an important role in determining the modeling parameters of individual components, especially those that are subject to significant non linear deformations. The individual components are then assembled to create a full non linear model of the structure. Thus created models are analyzed to evaluate the performance of buildings. The capabilities of the structural analysis software are a major consideration in the above process as they restrict the possible component models, the analysis methods available and, most importantly, the numerical robustness. The latter becomes a major consideration for structures that venture into the non linear range and approach global or local collapse as the numerical solution becomes increasingly unstable and thus difficult to reach. There are several commercially available Finite Element Analysis softwares such as CSI SAP2. CSI PERFORM 3. D and Scia Engineer ECtools which can be used for the seismic performance evaluation of buildings. Moreover, there is research based finite element analysis platforms such as Open. Student Database Software. Sees, RUAUMOKO and the older DRAIN 2. D3. D, several of which are now open source. Research for earthquake engineeringeditResearch for earthquake engineering means both field and analytical investigation or experimentation intended for discovery and scientific explanation of earthquake engineering related facts, revision of conventional concepts in the light of new findings, and practical application of the developed theories. The National Science Foundation NSF is the main United States government agency that supports fundamental research and education in all fields of earthquake engineering. In particular, it focuses on experimental, analytical and computational research on design and performance enhancement of structural systems. E Defense Shake Table1. The Earthquake Engineering Research Institute EERI is a leader in dissemination of earthquake engineering research related information both in the U.