According to the National Meteorological Institute of Costa Rica (IMN), Costa Rica has a tropical climate due to its location between the Tropic of Cancer and Tropic of Capricorn latitudes. The minimum temperature that has been recorded in Costa Rica within a period of 10 years is 16.9°C, while the maximum recorded temperature has been 32.4°C.


Birkel et al. (2021), show significantly increasing temperatures of 2.6°C with a spatial variability of ± 0.4°C until the year 2040 with local differences (higher temperatures projected for the southern Costa Rican Caribbean).


Changes in the dynamic behavior of structures are normally associated with structural damage or degradation; however, this research measures the dynamic effect of temperature of the Rafael Iglesias bridge located in Costa Rica. The influence that the environmental temperature has on the dynamic behavior of the bridge is measured through the variations in the vibration frequencies.


Measurements of the dynamic response have been made at six different points of the bridge. Furthermore, the measurements have been made at multiple times of the day with different temperatures, from 02:00 to 14:00 with temperatures from 16.7°C to 32.8°C, respectively.


The variation rates in the frequencies of the bridge have been determined according to the evolution of the environmental temperature. The frequency of the modes of vibration varied from 0.0008 Hz/°C for the first vibration mode (Mode A) to 0.0166Hz/°C for higher vibration mode (Mode N), causing a variation from 1.61% up to 4.43% for the present time and from 1.87% up to 5.14% for the year 2040. The results show increasing trends in frequencies (Figure 1), which are consistent with Christian et al. (2019).


These variations caused by temperature changes should be taken into consideration in future structural damage evaluations such as those caused by extreme damage events (earthquakes, impacts, hurricanes).