TY - JOUR
T1 - DAMAGE EVALUATION ON STEEL MEMBERS SUBJECTED TO SEISMIC RESPONSE USING THERMOELECTRIC DEVICES WITH FREQUENCY DEPENDENCY
AU - Sakiyama, Natsuhiko
AU - Fujie, Riku
AU - Kono, Seine
AU - Mori, Kenjiro
AU - Ito, Takumi
N1 - Publisher Copyright:
© 2022 ISEC Press.
PY - 2022
Y1 - 2022
N2 - After the earthquake events, building damage assessment is detected by experts. However, in fact, it takes a long time to conduct the assessment process during field survey. Also, it is worried about ensuring the safety of the surveys. In recent years, structural health monitoring has been attempted. This paper suggests a damage evaluation method based on temperature measurement using thermoelectric devices. The cyclic loading tests were conducted as parameters with the loading amplitude; three types of constant amplitude, and three types of variable amplitude with gradual decrease, gradual increase, and random amplitude, totaling six types of dynamic cyclic bending. As a result of applying the damage evaluation method to the loading test, it was confirmed that the cumulative damage calculated from the temperature measurement and the cumulative damage calculated from the input displacement were almost equal. In addition, seismic response analysis was conducted using an analytical model of a four-story building, and the effectiveness of the measurement method using thermoelectric devices was examined. The results of seismic response analysis shows that the natural frequency of the primary mode of the displacement response was lower than 4Hz, and the results of the sweep loading test confirmed that the thermoelectric devices captured the waveform of the temperature up to 4Hz.
AB - After the earthquake events, building damage assessment is detected by experts. However, in fact, it takes a long time to conduct the assessment process during field survey. Also, it is worried about ensuring the safety of the surveys. In recent years, structural health monitoring has been attempted. This paper suggests a damage evaluation method based on temperature measurement using thermoelectric devices. The cyclic loading tests were conducted as parameters with the loading amplitude; three types of constant amplitude, and three types of variable amplitude with gradual decrease, gradual increase, and random amplitude, totaling six types of dynamic cyclic bending. As a result of applying the damage evaluation method to the loading test, it was confirmed that the cumulative damage calculated from the temperature measurement and the cumulative damage calculated from the input displacement were almost equal. In addition, seismic response analysis was conducted using an analytical model of a four-story building, and the effectiveness of the measurement method using thermoelectric devices was examined. The results of seismic response analysis shows that the natural frequency of the primary mode of the displacement response was lower than 4Hz, and the results of the sweep loading test confirmed that the thermoelectric devices captured the waveform of the temperature up to 4Hz.
KW - Cyclic loading
KW - Structural health monitoring
KW - Structural steel
KW - Thermoelastic effect
UR - http://www.scopus.com/inward/record.url?scp=85152638505&partnerID=8YFLogxK
U2 - 10.14455/ISEC.2022.9(2).RAD-01
DO - 10.14455/ISEC.2022.9(2).RAD-01
M3 - Conference article
AN - SCOPUS:85152638505
SN - 2644-108X
VL - 9
JO - Proceedings of International Structural Engineering and Construction
JF - Proceedings of International Structural Engineering and Construction
IS - 2
T2 - 6th Australasia and South-East Asia Structural Engineering and Construction Conference, ASEA-SEC-06 2022
Y2 - 28 November 2022 through 2 December 2022
ER -