ANALIZA DINAMIČKOG ODGOVORA AB RAMOVSKE KONSTRUKCIJE SA GUMENIM LEŽIŠTIMA SA VELIKIM PRIGUŠENJEM

Geotehnički aspekti građevinarstva i zemljotresno inženjerstvo 2025, Vrnjačka Banja, 15 – 17. oktobar 2025. (pp. 477-484) 

АУТОР(И) / AUTHOR(S): Katarina Slavković Andrija Zorić Dragan Zlatkov Marija Spasojević Šurdilović 

Download Full Pdf   

DOI: 10.46793/GEOAG25.477S

САЖЕТАК / ABSTRACT:

U ovom radu je analiziran uticaj primene gumenih ležišta sa velikim prigušenjem na dinamički odgovor armiranobetosnke ramovske konstrukcije usled dejstva zemljotresa. Analiziran je slučaj bazno izolovane i kruto oslonjene kosntrukcije, kao i regularne i neregularne konstrukcije u osnovi i po visini. Sprovedena je uporedna analiza perioda oscilovanja, smičućih sila u osnovi, maksimalnih horizontalnih pomeranja, relativnih spratnih pomeranja i pojava plastičnih zglobova. Izvedeni su zaključci o efikasnosti primene izolatora i uticaja regularnosti kosntrukcije na dinamički odgovor tokom dejstva zemljotresa.

КЉУЧНЕ РЕЧИ / KEYWORDS:

Bazna izolacija, gumena ležišta sa velikim prigušenjem, AB ramovske kosntrukcije, regularne kosntrukcije, neregularne kosntrukcije, El Centro, direktna dinamička analiza.

ПРОЈЕКАТ / ACKNOWLEDGEMENT:  

REFERENCES / ЛИТЕРАТУРА:          

  • Bechtold J.: Earthquake-Proof Building, U.S. Patent US845046, U.S. Patent and Trademark Office, 1907.
  • Bridgestone, https://www.bridgestone.com/ (pristupljeno 25.08.2025).
  • Calantarients J.A.: Building Construction to Resist the Action of Earthquakes, U.S. Patent US932443A, U.S. Patent Office, 1909.
  • CSI America: ETABS — Building Analysis and Design, https://www.csiamerica.com/products/etabs (pristupljeno 21.08.2025.).
  • Edrees Saaed T., Nikolakopoulos G., Jonasson J.-E., Hedlund H.: A state-of-the-art review of structural control systems, Journal of Vibration and Control, 21(5), 2015, str. 919–937.
  • Ghoreishy M.H.R., Naderkhamse M., Karrabi M., Naderi G.: Finite element analysis of a rubber bearing base isolator under vertical and horizontal loads using a nonlinear hyper-viscoelastic material model, Polymer Testing, 2024, str. 108522.
  • Hidayatullah K., Manopo J., Supu I., Hadju A., Ofiyen C., Mahardhika M.K., Darma Y.: Enhancing hydrogen evolution reaction via photoelectrochemical water splitting: A review on recent strategies of metal oxide-based photoanode materials, Inorganic Chemistry Communications, 2025, str. 114885.
  • Islam A.B.M.S., Hussain R.R., Jumaat M.Z., Rahman M.A.: Nonlinear dynamically automated excursions for rubber-steel bearing isolation in multi-storey construction, Automation in Construction, 2013, str. 265–275.
  • Janković S.: Seizmički proračun armiranobetonskih zgrada u skladu sa eurokodovima s riješenim primjerima, AGM knjiga, Podgorica, 2022, 656 str.
  • Kalfas K., Mitoulis S.A., Katakalos K.: Numerical study on bridge elastomeric bearings subjected to large shear strains with emphasis on local tension, Engineering Structures, 2017, str. 346–357.
  • Kammerer A.M., Whittaker A.S., Constantinou M.C.: Technical Considerations for Seismic Isolation of Nuclear Facilities, U.S. Nuclear Regulatory Commission, NUREG/CR-7253, Washington, DC, 2019.
  • Maulida A.S.M., Umniati B.S., Sulton M., Maulidani A.A.: Performance Based Design: Performance Analysis on Fixed Base Structure and Structures with High Damping Rubber Bearing (HDRB), Jurnal Teoritis dan Terapan Bidang Rekayasa Sipil, 2025, str. 11–22.
  • Naeim F., Kelly J.M.: Design of Seismic Isolated Structures: From Theory to Practice, John Wiley & Sons, Hoboken, 1999, 304 str.
  • Patel D., Kumar R., Mourya V.K., Pandey G.: Dynamic behavior of high damping rubber bearings and lead rubber bearings under near-fault earthquakes, Res. Eng. Struct. Mater., 2024, str. 1541–1564.
  • Saedniya M., Talaeitaba S.B.: Numerical modeling of elastomeric seismic isolators for determining force–displacement curve from cyclic loading, Int J Adv Struct Eng, 2019, str. 361–376.
  • Touaillon J.: Improvement in buildings, U.S. Patent US99973, U.S. Patent and Trademark Office, 1899.
  • Tüzün C., Sadan B., Erdik M., Murota N., Suzuki S., Akkar S.: A Feasibility Study of Seismic Isolation Application in Residential Buildings in Turkey, Russian Federation, St. Petersburg, 1–6 Jul 2019.
  • Warn G.P., Ryan K.L.: A Review of Seismic Isolation for Buildings: Historical Development and Research Needs, Buildings, 2012, str. 300–325.
  • Zorić A.: Razvoj numeričkog i analitičkog modela inovativnog čeličnog disipatora seizmičke energije, Doktorska disertacija, Univerzitet u Nišu, Građevinsko-arhitektonski fakultet, Niš, 2022.