Real-time substructure is a novel hybrid method for the dynamic testing of structures. During an experiment, the structure of interest is divided into two entities. The crucial parts for the project undertaken are physically replicated and loaded dynamically through powerful actuators while the rest is numerically modelled and solved via real-time software. The dynamics of both substructures must be accurately reproduced, as well as their mutual interaction. The applications are multiple but that of earthquake engineering is primarily considered in this research. Beyond the accurate modelling of both substructures, three main issues are crucial to the validity of a real-time hybrid simulation. Firstly, the loading equipment must be capable ...
Real-time substructure testing is a novel method of testing structures under dynamic loading. The co...
Extreme dynamic events continue to demonstrate the fragility of civil infrastructure worldwide. Over...
Vibration of mechanical equipment in structures can result in fatigue, detection, and/or environment...
Real-time substructure is a novel hybrid method for the dynamic testing of structures. During an exp...
Real-time hybrid testing is a method of simulating dynamic structural response by splitting the syst...
Real-time hybrid simulation is an efficient and cost-effective experimental testing technique for pe...
This paper presents the development and implementation of a novel structural testing method involvin...
Real-time hybrid simulation is an efficient and cost-effective experimental testing technique for pe...
Real-time substructure testing is a method for establishing the dynamic behavior of structural syste...
Real-time hybrid simulation is a viable experiment technique to evaluate the performance of structur...
In real-time hybrid simulation (RTHS), a simulated structure is split into two substructures: one be...
Real-time testing with dynamic substructuring is a novel experimental technique capable of assessing...
Experimental testing is an essential tool for understanding how structures respond to extreme event...
Computational simulation and physical experiments are both widely used in testing the response of a ...
A time domain coupling technique, involving combined computational and experimental modelling, for v...
Real-time substructure testing is a novel method of testing structures under dynamic loading. The co...
Extreme dynamic events continue to demonstrate the fragility of civil infrastructure worldwide. Over...
Vibration of mechanical equipment in structures can result in fatigue, detection, and/or environment...
Real-time substructure is a novel hybrid method for the dynamic testing of structures. During an exp...
Real-time hybrid testing is a method of simulating dynamic structural response by splitting the syst...
Real-time hybrid simulation is an efficient and cost-effective experimental testing technique for pe...
This paper presents the development and implementation of a novel structural testing method involvin...
Real-time hybrid simulation is an efficient and cost-effective experimental testing technique for pe...
Real-time substructure testing is a method for establishing the dynamic behavior of structural syste...
Real-time hybrid simulation is a viable experiment technique to evaluate the performance of structur...
In real-time hybrid simulation (RTHS), a simulated structure is split into two substructures: one be...
Real-time testing with dynamic substructuring is a novel experimental technique capable of assessing...
Experimental testing is an essential tool for understanding how structures respond to extreme event...
Computational simulation and physical experiments are both widely used in testing the response of a ...
A time domain coupling technique, involving combined computational and experimental modelling, for v...
Real-time substructure testing is a novel method of testing structures under dynamic loading. The co...
Extreme dynamic events continue to demonstrate the fragility of civil infrastructure worldwide. Over...
Vibration of mechanical equipment in structures can result in fatigue, detection, and/or environment...