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Equivalent force control method for real-time substructure testing of an elastic specimen

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ã€Authorã€‘ XU Guo-shan,WU Bin(School of Civil Engineering,Harbin Institute of Technology,Harbin150090,China)

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ã€Abstractã€‘ An equivalent force control(EFC) method replaced mathematical iterations with a force feedback control loop for solving nonlinear equations of motion in a real-time substructure test(RST) using implicit integration algorithm.Here,numerical simulations and actual tests of structures in which the elastic element was used as the experimental substructure were introduced to further validate effectiveness of the EFC method.Firstly,the EFC method was introduced.Then,one single-degree-of-freedom(SDOF) system was used as an example to introduce the design method of a proportional-derivative equivalent force controller,and its stability was analyzed with the Routh stability criterion.Furthermore,numerical simulations of response to one-step excitation,free-vibration,and forced-vibration responses of the SDOF system,in which the elastic element was used as the experimental substructure,were done.Lastly,actual RSTs of response to one-step excitation,free-vibration,and forced-vibration responses of the SDOF system,in which the spring was used as the specimen,were done to further validate the effectiveness of the method.The analysis results showed that the feedback control system is stable as long as all control gains are positive.The numerical simulations and experimental results showed that the EFC method may exhibit excellent performance of stability and accuracy.æ›´å¤š è¿˜åŽŸ

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ã€Key wordsã€‘ real-time substructure testingï¼› equivalent force control method(EFC)ï¼› implicit integrationï¼› iterationï¼›

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