Design of Mass Isolated Structures with Consideration of Stability Constraints

سال انتشار: 1398
نوع سند: مقاله ژورنالی
زبان: انگلیسی
مشاهده: 253

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شناسه ملی سند علمی:

JR_JSEE-21-3_004

تاریخ نمایه سازی: 5 آبان 1400

چکیده مقاله:

Vertical mass isolation is one of the new techniques in the seismic design ofstructures that consists of two stiff and soft substructures connected by viscous dampers.Adding to the flexibility and energy dissipation potential of the system is the mainfeature of some new approaches in the seismic design of structures. Extra flexibilityhelps to reduce earthquake-induced forces and accelerations in the building andprovides higher energy dissipation potential for the system (by creating largerelative deformations in the structure). Mass subsystem possesses low lateralstiffness but carries the major part of the mass system. Stiffness subsystem, however,controls the deformation of the mass subsystem and attributes with much higherstiffness. In this paper, the aim is to find the limitation of the stability of asoft structure and to obtain the maximum period available for a soft structure.According to the studies, the most important obstruction in increasing the periodof the soft structure, assuming control of its deformation by connecting to thestiff substructure, is to maintain the stability of the structure. In this paper, first, arelationship has been presented to calculate the period of the structure in terms ofthe stability factor that estimates the period of structure with good agreement byanalytical results. This paper deals with presenting a procedure for designing theMass Isolation System (MIS) with consideration of stability constraints. To this end,the paper presents mathematical solutions to calculate the period of the structurefollowed by proposing a design procedure of the soft substructure.

نویسندگان

Mohammad Boujary

International Institute of Earthquake Engineering and Seismology (IIEES), Tehran, Iran

Mansour Ziyaeifar

International Institute of Earthquake Engineering and Seismology (IIEES), Tehran, Iran

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  • ASCE (۲۰۱۷a) Minimum Design Loads andAssociated Criteria for Buildings and ...
  • EuroCode (۲۰۰۴) Design of structures for earthquakeresistance - Part ۱: ...
  • Christenson, R.E., Spencer, Jr., B.F., Hori, N., andSeto, K. (۲۰۰۳) ...
  • Yuji, K., Keizo, N., Masanori, I., Tamotsu, M., andHirofumi, S. ...
  • Ziyaeifar, M., Gidfar, S., and Nekooei, M. (۲۰۱۲)A model for ...
  • ATC-۳۳ (۱۹۹۷) NEHRP Guidelines for theSeismic Rehabilitation of Buildings (FEMA ...
  • Applied Technology Council (ATC-۳۳ Project),Washington, D.C., Federal Emergency Management۸. FEMA ...
  • BHRC (۲۰۱۴) Iranian Code of Practice forSeismic Resistant Design of ...
  • CSI (July ۲۰۱۵) CSI Analysis Reference۱۱. ASCE (۲۰۱۰) Commentary for ...
  • Bernal, D. (۱۹۹۲) Instability of buildings subjectedto earthquakes. Journal of ...
  • AISC-ANSI, A. (۲۰۱۰) Specification forStructural Steel Buildings (ANSI/AISC ۳۶۰-۱۰). Chicago ...
  • Bernal, D. (۱۹۹۸) Instability of Buildings duringseismic response. Engineering Structures,۲۰(۴-۶), ...
  • Bernal, D., Nasseri, A., and Bulut, Y. (۲۰۰۶)Instability inducing potential ...
  • Bernal, D. (۱۹۸۷) Amplification factors forinelastic dynamic P-D effects in ...
  • Castilla, E. and Lopez, O. (۱۹۸۰) Influence ofgravity loads in ...
  • Bol. IMME, ۱۸(۶۷), ۳-۱۸ ...
  • ASCE (۲۰۱۷b) Seismic Evaluation and Retrofitof Existing Buildings (ASCE/SEI ۴۱-۱۷)۵۱۸. ...
  • Dimopoulos, A.I., Bazeos, N., and Beskos, D.E ...
  • (۲۰۱۲) Seismic yield displacements of planemoment resisting and x-braced steel ...
  • Soil Dynamics and Earthquake Engineering,۴۱, ۱۲۸-۱۴۰, doi:http://dx.doi.org/۱۰.۱۰۱۶/j.soildyn.۲۰۱۲.۰۵.۰۰۲ ...
  • ATC (۲۰۰۸) Quantification of BuildingSeismic Per formance Factor s - ...
  • Council Ed.): Federal Emergency Management۲۱. Chopra, A.K. (۲۰۰۷) Dynamics of ...
  • COSMOS (۲۰۱۸) Strong Motion Virtual DataCenter . Retrieved from www.strongmotioncenter ...
  • org/vdc/scripts/stnpage.plx?stations=۲۸ ...
  • PEER (۲۰۱۸) NGA-West۲ PEER GroundMotion DataBase. Retrieved from htpps://ngawest۲.berkeley.edu ...
  • نمایش کامل مراجع