View article

This research focused on introducing a new mechanism to measure the effective earth pressure and total earth pressure in one degree of freedom sensor system. To identify the structural deformation with respect to the earth pressure (in other words sense the earth pressure) strain gauge based cross beam structure is introduced as the sensing structure. This study was focussed on measuring 150 kN/m2 maximum earth pressure however, it is capable of customizing the system according to the measuring requirement. A novel mechanism is developed to measure the effective earth pressure directly by allowing infiltration of water into the sensor and there by cancelling the outside pore water pressure. Finite element analysis was carried out to identify and optimize the sensing cross-beam structure dimensions. Dimensions and the shape of the sensor were finalized after referring to the literature. Aluminium material was used to manufacture this sensor considering different geotechnical, mechanical and environmental factors. Precision marching methods were used to manufacture a highquality sensor minimizing the manufacturing errors. For that CNC milling machine and CNC lathe machine in the Die and Mould laboratory were used. After that a complete data acquisition system was developed to collect, visualize and store the data. Cloud database based remote sensing mechanism was also introduced to monitor the earth pressure in real time via a web portal. Laboratory testing and validation were done using sand material. Sensitivity, zero load drift and thermal characteristic of the sensor was also identified. Finally using the developed sensor …