The effect of temperature on the monotonic and cyclic shearing response of a soil–structure interface is of critical importance for the application of thermal-active geo-structures. To investigate this, soils and soil–concrete interfaces were comprehensively tested with a temperature-controlled direct shear device under both fixed temperatures and thermal/mechanical cycles within the range of 2–38 °C. Monotonic and cyclic shearing with various boundary conditions, including constant normal load (CNL), constant normal stiffness (CNS) and constant volume (CV), were conducted to resemble the conditions that thermal-active-geo-structures may experience. The strength properties of the sand, clay, and sand–concrete and clay–concrete interfaces we...
The response of the soil-structure interface can significantly affect the performance of any geotech...
The soil response to daily temperature variation imposed by an energy pile is critical for estimatin...
The understanding of cyclic and post-cyclic behaviours of the soil–geosynthetic interface is essenti...
International audienceThe mechanical behaviour of the soil-structure interface plays a major role in...
In energy geostructures, which exploit the heat in soil using earth contact elements, the interface ...
The mechanical behaviour of the soil-structure interface plays a major role in the shear characteris...
International audienceIn the present work, the shear behaviour of soils and the soil–concrete interf...
Incorporation of heat exchangers in conventional geostructures like piles can extract the heat from ...
In the present work, shear behaviour of soils and soil/concrete interface is investigated through di...
Behaviour of the pile–soil interface is important to correctly predict the response of floating pile...
Behaviour of the pile–soil interface is important to correctly predict the response of floating pile...
Fundamental understanding and proper modelling of soil behaviour under thermal cycles are increasing...
Understanding the behaviour of soil-structure interfaces is critical for addressing the analysis and...
Thermoactive geostructures (such as energy piles) are used for heating and cooling of buildings, whi...
Energy piles are double purpose foundation elements used both for transferring loads to the soil and...
The response of the soil-structure interface can significantly affect the performance of any geotech...
The soil response to daily temperature variation imposed by an energy pile is critical for estimatin...
The understanding of cyclic and post-cyclic behaviours of the soil–geosynthetic interface is essenti...
International audienceThe mechanical behaviour of the soil-structure interface plays a major role in...
In energy geostructures, which exploit the heat in soil using earth contact elements, the interface ...
The mechanical behaviour of the soil-structure interface plays a major role in the shear characteris...
International audienceIn the present work, the shear behaviour of soils and the soil–concrete interf...
Incorporation of heat exchangers in conventional geostructures like piles can extract the heat from ...
In the present work, shear behaviour of soils and soil/concrete interface is investigated through di...
Behaviour of the pile–soil interface is important to correctly predict the response of floating pile...
Behaviour of the pile–soil interface is important to correctly predict the response of floating pile...
Fundamental understanding and proper modelling of soil behaviour under thermal cycles are increasing...
Understanding the behaviour of soil-structure interfaces is critical for addressing the analysis and...
Thermoactive geostructures (such as energy piles) are used for heating and cooling of buildings, whi...
Energy piles are double purpose foundation elements used both for transferring loads to the soil and...
The response of the soil-structure interface can significantly affect the performance of any geotech...
The soil response to daily temperature variation imposed by an energy pile is critical for estimatin...
The understanding of cyclic and post-cyclic behaviours of the soil–geosynthetic interface is essenti...