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Line 28: * Seismic evaluation of jacket-type offshore platforms <ref name=j32/> * Optimal damper placement in framed buildings<ref name=j12/><ref name=j51/> * Optimal design of ~~damper~~energy dissipation systems <ref name=j49/><ref name=j50/><ref name=j52/><ref name=w3/> * Seismic assessment of structures<ref name=j7/> * Performance-based design<ref name=j11/><ref name=j24/><ref name=j35/><ref name=j36/> Line 124: <ref name=j50>Shirkhani, A., Farahmand Azar, B., & Basim, M. C. (2020). Optimum slip load of T-shaped friction dampers in steel frames by endurance time method. Proceedings of the Institution of Civil Engineers-Structures and Buildings, 173(10), 746-760. https://doi.org/10.1680/jstbu.18.00169</ref> <ref name=j51>Shirkhani A., Farahmand Azar, B., Charkhtab Basim, M., & Mashayekhi M. (2021). Performance-based optimal distribution of viscous dampers in ‎structure using hysteretic energy compatible endurance time excitations. International Journal of Numerical Methods in Civil Engineering, 5 (3), 46-55. http://dx.doi.org/10.52547/nmce.5.3.46</ref> <ref name=j52>Shirkhani, A., Farahmand Azar, B., & Charkhtab Basim, M. (2021). Seismic loss assessment of steel structures equipped with rotational friction dampers subjected to intensifying dynamic excitations. Engineering Structures, 238. https://doi.org/10.1016/j.engstruct.2021.112233 ~~; https://sites.google.com/view/ascivil/publications~~</ref> <ref name=w3>Publications: Application of Endurance Time Method in Optimal design of energy dissipation systems [Online]. https://sites.google.com/view/ascivil/publications/</ref> }}

Endurance time method: Difference between revisions