A Damage Model for Practical Seismic Design that Accounts for Low Cycle Fatigue-Reference-Cited by-同舟云学术

A Damage Model for Practical Seismic Design that Accounts for Low Cycle Fatigue

Published:2005-08 Issue:3 Volume:21 Page:803-832
ISSN:8755-2930
Container-title:Earthquake Spectra
language:en
Short-container-title:Earthquake Spectra

Author:

Teran-Gilmore Amador¹,Jirsa James O.²

Affiliation:

1. Universidad Autonoma Metropolitana, Av. San Pablo 180, Col. Reynosa Tamaulipas, Mexico 02200, D.F.

2. University of Texas at Austin, 10100 Burnet Road, Bldg. 177, Austin, TX 78758

Abstract

The structural properties of a structure deteriorate when deformations reach the range of inelastic behavior. A possible consequence of deterioration of the hysteretic behavior of a structure is failure of critical elements at deformation levels that are significantly smaller than its ultimate deformation capacity. Seismic design methodologies that account for low cycle fatigue can be formulated using the concept of target ductility. The practical use of one such methodology requires the consideration of simple low cycle fatigue models that consider the severity of repeated loading through a normalized plastic energy parameter. The inconsistencies inherent to the use of such indices can be corrected through simple empirical rules derived from an understanding of the effect of the history of energy dissipation in the assessment of the level of structural damage.

Publisher

SAGE Publications

Subject

Geophysics,Geotechnical Engineering and Engineering Geology

Link

http://journals.sagepub.com/doi/pdf/10.1193/1.1979500

Reference53 articles.

1. Akiyama, H., and Takahashi, M. , 1992. Response of reinforced concrete moment frames to strong earthquake ground motions,Nonlinear Seismic Analysis and Design of Reinforced Concrete Buildings, edited by H. Krawinkler and P. Fajfar , Elsevier Applied Science, pp. 105–114.

2. Applied Technology Council (ATC , 1997.NEHRP Guidelines for the Seismic Rehabilitation of Buildings, prepared for the Building Seismic Safety Council, published by the Federal Emergency Management Agency,Report No. FEMA-273, Washington, D.C.

3. Arroyo-Espinoza, D., and Teran-Gilmore, A. , 2002. Use of strength reduction factors to account for low cycle fatigue,Proceedings, 7th U.S. National Conference on Earthquake Engineering,Boston, Mass.(CD-ROM)

4. Baik, S.W., Lee, D.G., and Krawinkler, H. , 1988. A simplified model for seismic response prediction of steel frame structures,Proceedings, IX World Conference on Earthquake Engineering,Tokyo, Japan,V, pp. 2–9.

Cited by 46 articles. 订阅此论文施引文献订阅此论文施引文献，注册后可以免费订阅5篇论文的施引文献，订阅后可以查看论文全部施引文献

1. Low-Cycle Fatigue Properties and Model for Flexure-Shear Critical Reinforced Concrete Columns Considering Cyclic Damage Effects;Journal of Structural Engineering;2024-07

2. Estimation of Uniform Risk Spectra Suitable for the Seismic Design of Structures;Buildings;2023-08-26

3. Seismic performance and damage properties of flexure–shear critical RC columns with various loading cycles;Bulletin of Earthquake Engineering;2023-07-07

4. Two-fold improvement of low cycle fatigue resistance of steel by bidirectional transformation-induced plasticity;International Journal of Fatigue;2023-06

5. Computer-Vision and Machine-Learning-Based Seismic Damage Assessment of Reinforced Concrete Structures;Buildings;2023-05-11