Name: ULIANE BORTOLOTI MARTINEZ
Type: MSc dissertation
Publication date: 23/08/2018
Advisor:
Name |
Role |
|---|---|
| JOÃO LUIZ CALMON NOGUEIRA DA GAMA | Advisor * |
Examining board:
| Name |
Role |
|---|---|
| GEILMA LIMA VIEIRA | Internal Examiner * |
| JOÃO LUIZ CALMON NOGUEIRA DA GAMA | Advisor * |
Summary: Thermal stresses due to thermal gradients represent a significant parcel of the total stresses in Portland cement concrete pavements in airport aprons. By the noteworthiness of this theme, many researches have been done with the aim to verify the climate influence on the thermal curling of concrete pavements. The main objective of this research is to do a broad approach of the thermomechanical behavior of concrete pavements of airport aprons due to the aircrafts traffic and ambient conditions. There were compared the thermals differentials and stresses on the pavement of five Brazilians regions represented for its capitals Brasília, Manaus, Porto Alegre, São Paulo e Teresina. There were taken into consideration the ambient temperature, solar radiation and the course aggregate most utilized in each region. Parametric analyses were held to verify the influence of each parameter on the thermal differentials and stresses on the pavement. The thermal simulations with the numerical model were done through the software ANSYS®/Multiphysic (Version 15.0) and the structural simulations through the software EverFE (version 2.23). The finite elements method was used to evaluate the thermal differentials, displacements and stresses resulted for the boundary conditions and loads applied to the pavement. The results have shown that the ambient conditions have an important role on the pavements temperature distribution, the main thermal differentials are positives and non-linear, the greatest stresses are found on the bottom of the pavement due to the combination of thermal and mechanical load. Another relevant point founded is that the type of course aggregate used on the concrete mixture, which plays an important role on the thermomechanical properties of the material and therefore, on the magnitude of thermal gradients and stresses.
Keyword: Airport aprons, termal differetials, concrete pavements, termal stresses, finite elements method, climate.
