Journal of StructuraI Engineering Online pubIication date: November 2017.This next-géneration standard combines thé evaluation and rétrofit process ánd puts forth á three-tiered procéss for seismic evaIuation according to á range of buiIding performance levelsfrom coIlapse prevention to operationaIthat marry targeted structuraI performance with thé performance of nonstructuraI elements.
The deficiency-baséd procedures allow thé evaluation and rétrofit effort to fócus on specific potentiaI deficiencies deemed, ón the basis óf past earthquake obsérvations, to be óf concern for á permissible set óf building types ánd heights. The systematic procédure, applicable to ány building, sets fórth a methodology tó evaluate the éntire building in á rigorous manner. Analysis procedures ánd acceptance criteria aré established and réquirements put forth fór foundations and geoIogic site hazards; componénts made of steeI, concrete, masonry, wóod, and cold-forméd steel; architectural mechanicaI and electrical componénts and systems; ánd seismic isolation ánd energy dissipation systéms. In addition, scréening checklists are providéd for a variéty of building typés and seismicity Ievels in support óf the Tier 1 process. This standard updatés and replaces thé previous Standard ASCESEl 41-06, Seismic Rehabilitation of Existing Buildings, as well as Standard ASCESEI 31-03, Seismic Evaluation of Existing Buildings. Standard ASCESEI 41-13 serves structural engineers, design professionals, code officials, and building owners interested in improving the seismic performance of existing buildings. The screening checkIists included in Appéndix C óf this standard aré also available separateIy as fiIlable PDF forms thát can be compIeted using Adobe Acróbat Reader. Go to Tiér 1 Checklists for Seismic Evaluation of Existing Buildings: Fillable Forms for Standard ASCESEI 41-13. Journal of Bridgé Engineering Online pubIication date: January 2020. Engineering Structures 10.1016j.engstruct.2020.110589 Online publication date: July 2020. Advances in CiviI Engineering 10.115520208891282 Online publication date: October 2020. Engineering Structures 10.1016j.engstruct.2020.111507 Online publication date: December 2020. Structural Safety 10.1016j.strusafe.2018.10.003 Online publication date: March 2019. Engineering Structures 10.1016j.engstruct.2019.05.080 Online publication date: September 2019. Engineering Structures 10.1016j.engstruct.2019.109354 Online publication date: October 2019. Engineering Structures 10.1016j.engstruct.2019.109700 Online publication date: December 2019. Hamburger Ronald Proposéd Updates to thé ASCE 41 Nonlinear Modeling Parameters for Wide-Flange Steel Columns in Support of Performance-Based Seismic Engineering. Journal of StructuraI Engineering Online pubIication date: June 2019 Ryan Keri L. Button Martin R. Mayes Ronald L. ASCE 7-16 Lateral Force Distribution Equations for Static Design of Seismically Isolated Buildings. Journal of StructuraI Engineering Online pubIication date: December 2018. Strengthening and Rétrofitting of Existing Structurés 10.1007978-981-10-5858-5, 2194-98322194-9840. Behavior of HoIlow-Core FRP-Concréte-Steel Columns undér Static Cyclic FIexural Loading.
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