- Combined Effect of Low Temperature and Exposure Time on Seismic Performance of an LRB-Isolated Bridge. In: Journal of Bridge Engineering (ASCE), v. 29, n. 12 (December 2024). (2024):
- Effect of Lead Core Heating on Residual Displacements of Lead Rubber Bearings Under Bi-Directional Earthquake Excitations. In: Journal of Earthquake Engineering. :
- Modifications in both lead and rubber properties of LRBs at low temperatures considering the size effect. In: Engineering Structures, v. 307 (May 2024). (2024):
- Friction coefficient of sliding isolators in icing conditions. In: Structures, v. 63 (May 2024). (2024):
- Effects of modeling assumptions on prediction of seismic demands of a single-story RC structure. In: Structures, v. 58 (December 2023). (2023):
- Variation in Mechanical Properties of a Lead–Rubber Bearing Exposed to Low Temperature. In: Journal of Cold Regions Engineering, v. 37, n. 3 (September 2023). (2023):
- Experimental Investigation of Wear Effects on the Friction Coefficient of a Curved Surface Slider: Comparison of Small- and Full-Scale Tests. In: Journal of Earthquake Engineering, v. 27, n. 16 (March 2023). (2023):
- (2023): Amplification in Mechanical Properties of a Lead Rubber Bearing for Various Exposure Times to Low Temperature. In: Buildings, v. 13, n. 2 (14 February 2023).
- Modeling of Lead Rubber Bearings via 3D-BASIS, SAP2000, and OpenSees Considering Lead Core Heating Modeling Capabilities. In: International Journal of Structural and Civil Engineering Research, v. 7, n. 4 ( 2018). (2018):
- Amplification in maximum isolator displacement of an LRB isolated building due to mass eccentricity. In: Bulletin of Earthquake Engineering, v. 20, n. 1 (November 2021). (2021):
- Modification in Response of a Bridge Seismically Isolated with Lead Rubber Bearings Exposed to Low Temperature. In: Teknik Dergi, v. 33, n. 5 (September 2022). (2022):
- Türk Deprem Yönetmeliklerinin (DBYBHY ve TBDY) Sismik İzolatör Tasarımı Özelinde Karşılaştırılması. In: Teknik Dergi, v. 32, n. 5 (September 2021). (2021):
- Using maximum direction of a ground motion in a code-compliant analysis of seismically isolated structures. In: Structures, v. 28 (December 2020). (2020):
- Influence of superstructure modeling approach on the response prediction of buildings with LRBs considering heating effects. In: Structures, v. 28 (December 2020). (2020):
- Change in response of bridges isolated with LRBs due to lead core heating. In: Soil Dynamics and Earthquake Engineering, v. 31, n. 7 (July 2011). (2011):
- Evaluation of equivalent lateral force procedure in estimating seismic isolator displacements. In: Soil Dynamics and Earthquake Engineering, v. 30, n. 10 (October 2010). (2010):
- Lead core heating in lead rubber bearings subjected to bidirectional ground motion excitations in various soil types. In: Earthquake Engineering and Structural Dynamics, v. 43, n. 2 (January 2014). (2014):
- Effect of lead core heating on the seismic performance of bridges isolated with LRB in near-fault zones. In: Earthquake Engineering and Structural Dynamics, v. 41, n. 14 (November 2012). (2012):
- Effects of Lead Core Heating on the Superstructure Response of Isolated Buildings. In: Journal of Structural Engineering (ASCE), v. 143, n. 10 (October 2017). (2017):
- Response of Seismic-Isolated Bridges in Relation to Intensity Measures of Ordinary and Pulselike Ground Motions. In: Journal of Bridge Engineering (ASCE), v. 18, n. 3 (March 2013). (2013):