Univ.-Prof. Dr.-Ing. habil. Okyay Altay
Lehrstuhl für Baustatik - Professor*in
Büroadresse
Prof. Altay ist seit 2024 Inhaber des Lehrstuhls für Baustatik. Zuvor war er an der RWTH Aachen als Akademischer Oberrat am Lehrstuhl für Baustatik und Baudynamik sowie als Geschäftsführer des Centers for Wind and Earthquake Engineering tätig. 2021 habilitierte er sich an der RWTH mit Arbeiten zur adaptiven Schwingungsreduktion, Materialmodellierung und Echtzeitsimulation und promovierte 2013 mit Auszeichnung zum Thema Flüssigkeitsdämpfer.
Vor seiner wissenschaftlichen Laufbahn arbeitete er bei Bernard Ingenieure in Wien als Projektleiter und später als stellvertretender Geschäftsführer der Tochtergesellschaft RED Bernard im Bereich Brückenüberwachung und Schwingungsreduktion. Sein Studium des Bauingenieurwesens mit Vertiefung im Konstruktiven Ingenieurbau absolvierte er an der RWTH Aachen University, nachdem er seine Schulbildung am TED Ankara College in der Türkei abgeschlossen hatte.
Publikationen
Rate dependent free energy formulations for dynamically excited superelastic SMA wires
Rate dependent free energy formulations for dynamically excited superelastic SMA wires
Multilayer toroidal tuned liquid column dampers for seismic vibration control of structures
Multilayer toroidal tuned liquid column dampers for seismic vibration control of structures
Moving horizon estimator for vibration control of high-rising structures
Moving horizon estimator for vibration control of high-rising structures
Mathematical modeling and optimization scheme for omnidirectional tuned liquid column dampers
Mathematical modeling and optimization scheme for omnidirectional tuned liquid column dampers
Real-time hybrid simulation framework for the investigation of soil-structure interaction effects on the vibration control performance of shape memory alloys
Real-time hybrid simulation framework for the investigation of soil-structure interaction effects on the vibration control performance of shape memory alloys
Strain amplitude effects on the seismic performance of dampers utilizing shape memory alloy wires
Strain amplitude effects on the seismic performance of dampers utilizing shape memory alloy wires
Vibration Mitigation Systems in Structural Engineering
Vibration Mitigation Systems in Structural Engineering
Strain rate dependent formulation of the latent heat evolution of superelastic shape memory alloy wires incorporated in multistory frame structures
Strain rate dependent formulation of the latent heat evolution of superelastic shape memory alloy wires incorporated in multistory frame structures
Macroscopic modeling of strain-rate dependent energy dissipation of superelastic SMA dampers considering destabilization of martensitic lattice
Macroscopic modeling of strain-rate dependent energy dissipation of superelastic SMA dampers considering destabilization of martensitic lattice
Mathematical modeling and optimization scheme for omnidirectional tuned liquid column dampers
Mathematical modeling and optimization scheme for omnidirectional tuned liquid column dampers
Identification of abrupt stiffness changes of structures with tuned mass dampers under sudden events
Identification of abrupt stiffness changes of structures with tuned mass dampers under sudden events
CANFIS‐Based Semi‐active Vibration Control of Stochastically Excited High‐Rise Civil Engineering Structures with Nonlinearities and Uncertainties
CANFIS‐Based Semi‐active Vibration Control of Stochastically Excited High‐Rise Civil Engineering Structures with Nonlinearities and Uncertainties