TY - GEN
T1 - A study on effective mass of one way joist supported systems
AU - Avci, Onur
AU - Davis, Brad
PY - 2015
Y1 - 2015
N2 - This paper focuses on the effective mass calculations of an experimental and analytical research study in which two laboratory joist supported footbridge systems were tested with static and dynamic loadings. Effective mass of different modes in laboratory footbridges were measured through experimental modal analysis and compared to the theoretical and finite element model results. For both single span (30ft × 7ft; 9.14m × 2.13m) and three span (90 ft × 7 ft; 27.42m × 2.13m) footbridges, acceleration data was collected on three parallel lines in the longitudinal direction of the laboratory structures. Testing was done for different bottom chord extension configurations to observe the effect of the extensions on various properties. For effective mass calculations, the average mode shapes of the three longitudinal lines were used and one way systems were treated as beams. The mode shape vectors for the first bending mode of the single span footbridge and the first three bending modes of the three span footbridge were determined for each bottom chord extension configuration. Each mode shape vector was then normalized to establish the mode shape matrix, and the effective mass of the entire footbridge for each mode was calculated to be compared to the theoretical and finite element model results.
AB - This paper focuses on the effective mass calculations of an experimental and analytical research study in which two laboratory joist supported footbridge systems were tested with static and dynamic loadings. Effective mass of different modes in laboratory footbridges were measured through experimental modal analysis and compared to the theoretical and finite element model results. For both single span (30ft × 7ft; 9.14m × 2.13m) and three span (90 ft × 7 ft; 27.42m × 2.13m) footbridges, acceleration data was collected on three parallel lines in the longitudinal direction of the laboratory structures. Testing was done for different bottom chord extension configurations to observe the effect of the extensions on various properties. For effective mass calculations, the average mode shapes of the three longitudinal lines were used and one way systems were treated as beams. The mode shape vectors for the first bending mode of the single span footbridge and the first three bending modes of the three span footbridge were determined for each bottom chord extension configuration. Each mode shape vector was then normalized to establish the mode shape matrix, and the effective mass of the entire footbridge for each mode was calculated to be compared to the theoretical and finite element model results.
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U2 - 10.1061/9780784479117.073
DO - 10.1061/9780784479117.073
M3 - Conference contribution
AN - SCOPUS:84929241598
T3 - Structures Congress 2015 - Proceedings of the 2015 Structures Congress
SP - 852
EP - 863
BT - Structures Congress 2015 - Proceedings of the 2015 Structures Congress
A2 - Ingraffea, Nathan
A2 - Libby, Mark
T2 - Structures Congress 2015
Y2 - 23 April 2015 through 25 April 2015
ER -