The project has been separated into two main parts. First is the experimental approach. Compressive test and three-point bending test are being performed in the climate chamber, which is capable to maintain the ambient temperature at -10°C to -2 °C.  The experiment data are recorded and processed according to the standard for further processes. Different PFS are constructed with different types of engineering and natural particles, for natural particles, sand particle has been chosen and for engineering particles, polymer, glass and alpha alumina particles have been chosen.  Such selection can ensure a wide range of particles are considered, Such as high rigidity (glass and ceramic particles), low rigidity (polymer particles), smooth surface (glass and polymer particles), rough surface (sand and ceramic particles). Specimen with a wide range of ice and air volumetric content have been created for the experiment. The specimen preparation methodologies are also investigated vastly in this process.

Second is the numerical simulation, the experiment data obtained in the experimental stage are used in the development of the solid bond model in the DEM simulation framework MUSEN. BPM is the extension of DEM, which is also available in this framework. In the experiment stage, uniaxial compression test of pure ice specimen is performed, in order to obtain the pure bond structure mechanical properties. The material respond of the ice structure in different temperature and strain rate will be formulated. Such material characteristic will be used as a reference in the bond model, which the solid bond model is developed with respected to temperature and strain rate. Experiment data are used to validate the result and further improving the bond model. Both the fracture behavior and the material respond are investigated in the process. In the further step, dynamic mechanical testes and simulation will be conducted such as high dynamic simulation or cyclic loading.