[PDF] Seismic Rehabilitation Case Study Per Fema 273 274 Guidelines For Federal Office Building 10a Washington Dc National Institute Of Building Sciences Building Seismic Safety Council Case Study Project eBook

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FEMA 273/274 NEHRP Guidelines for the Seismic Rehabilitation of Buildings

FEMA 273/274 NEHRP Guidelines for the Seismic Rehabilitation of Buildings by PDF

Author :
Publisher :
Page : pages
File Size : 42,37 MB
Release : 1999
Category : Building, Iron and steel
ISBN :

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The building used for this case study is a two-story steel-braced frame structure (model building type 04) designed for the Pacific Academy High School, located in Richmond, Calif. The original design was based on provisions of the 1994 UBC.

Planning for Seismic Rehabilitation

Federal Emergency Management Agency
Planning for Seismic Rehabilitation by Federal Emergency Management Agency PDF

Author : Federal Emergency Management Agency
Publisher : CreateSpace
Page : 116 pages
File Size : 44,76 MB
Release : 2013-04-03
Category : Technology & Engineering
ISBN : 9781484027592

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In 1984, the Federal Emergency Management Agency (FEMA) initiated a comprehensive, and closely coordinated program to develop a body of knowledge in support of building practices that would increase the ability of existing buildings to withstand the forces of earthquakes. Societal issues inherent in seismic rehabilitation processes also have received attention. At a cumulative cost of about $26million, this FEMA effort has generated two dozen publications and a number of software programs and audio-visual training materials for use by design professionals, building regulatory personnel, educators, researchers, and the general public. The program has proceeded along separate but parallel approaches in dealing with both private sector and federal buildings. Already available from FEMA to private sector practitioners and other interested parties is a "technical platform" of consensus criteria on how to deal with some of the major engineering aspects of the seismic rehabilitation of buildings. This technical material comprises a trilogy with supporting documentation: a method for the rapid identification of buildings that might be hazardous in an earthquake and which can be conducted without gaining access to the buildings themselves; a methodology for a more detailed evaluation of a building that identifies structural flaws that have caused collapse in past earthquakes and might do so again in future earthquakes, and a compendium of the most commonly used techniques of seismic rehabilitation. Along with this volume, the culminating activity in the field of seismic rehabilitation is the completion of a comprehensive set of nationally applicable guidelines with commentary on how to rehabilitate buildings so that they will better withstand earthquakes. Known as the AEJRP Guidelines for the Seismic Rehabilitation of Buildings (FEMA 273) and the Commentary on the Guidelines for the Seismic Rehabilitation of Buildings (FEMA 274), these volumes, the results of a multiyear, multimillion dollar effort, represent a first of its kind in the United States. The Guidelines allow practitioners to choose design approaches consistent with different levels of seismic safety as required by geographic location, performance objective, type of building, use or occupancy, or other relevant considerations. The Guidelines documents also include analytical techniques that will assist in generating reliable estimates of the expected earthquake performance of rehabilitated buildings. This extensive platform of materials fills a significant gap in that portion of the National Earthquake Hazards Reduction Program (NEHRP) focusing on the seismic safety of existing buildings. It is expected that, with time, the Guidelines will be referenced or adapted by standards-setting groups and model building code organizations and will thereby diffuse widely into building practices across the United States. This volume complements the technical materials principally oriented to design professionals in the Guidelines documents. Because of the complexities and possible disruption caused by seismic rehabilitation projects, this volume's title, Planning for Seismic Rehabilitation: Societal Issues, calls attention to two important themes: that careful planning can minimize possibly difficult societal problems and that there exists a wide range of societal issues that maybe more significant in rehabilitation projects than in new construction. In many ways, this publication is intended to provide a "heads up" to those who are considering individual or multiple building, construction class or use, or area-focused seismic rehabilitation efforts.

Engineering Guideline for Incremental Seismic Rehabilitation (FEMA P-420 / May 2009)

U. s. Department of Homeland Security
Engineering Guideline for Incremental Seismic Rehabilitation (FEMA P-420 / May 2009) by U. s. Department of Homeland Security PDF

Author : U. s. Department of Homeland Security
Publisher : Createspace Independent Pub
Page : 94 pages
File Size : 34,84 MB
Release : 2013-01-27
Category : Social Science
ISBN : 9781482094275

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Initial cost and loss of normal building use have been cited as major obstacles to implementation of seismic rehabilitation. The Federal Emergency Management Agency (FEMA) has published a series of occupancy-specific manuals for building owners that presents incremental strengthening of buildings in discrete stages as a way of managing costs and minimizing disruption associated with seismic rehabilitation projects. Incremental strengthening was initially conceptualized for school buildings under a grant from the National Science Foundation to Building Technology Incorporated. The FEMA manuals are the result of a series of projects funded by FEMA and others dating back to the 1980s, which investigated financial incentives for seismic rehabilitation of existing hazardous buildings, physical seismic rehabilitation potential, and institutional capacity for mitigation investment. Work was conducted by a team of consultants led by the World Institute for Disaster Risk Management in association with Virginia Polytechnic Institute and State University, Building Technology Incorporated, Melvyn Green Associates, EQE Incorporated, and George Washington University. Early on, these projects concluded that a strategy for integrating the planning and implementation of seismic strengthening into the overall facility maintenance and capital improvement process was needed. The strategy was referred to as incremental seismic rehabilitation, and the resulting manuals present seismic rehabilitation within the context of the specific facility management, risk management, and financial management needs and practices of building owners. The technical feasibility and economic viability of incremental seismic rehabilitation has been studied and validated. This Engineering Guideline for Incremental Seismic Rehabilitation is intended as a technical resource for design professionals who are implementing incremental seismic rehabilitation on their projects or advocating the use of an incremental approach to seismic rehabilitation in practice. It explains the concept of incremental seismic rehabilitation as a strategy, discusses owner maintenance, capital improvement and decision-making processes as a basis for communicating with decision-makers on seismic rehabilitation opportunities, summarizes available engineering resource documents, and outlines the overall engineering process for incremental seismic rehabilitation of buildings.