The response of ground penetrating radar (GPR) to changes in temperature and moisture condition of pavement materials

摘要

The use of geophysical techniques to assess geotechnical and pavement structures can providemuch useful information to the engineer. The development of ground penetrating radar (GPR) in recent years hasled to its increasing use for pavement and geotechnical investigations, and the technique involves recording theamplitude and travel time of electromagnetic GPR signals reflected from features within the ground or structureof interest. Depths can be determined, and features of interest such as different layers, excess moisture, voidsand changes in materials can be identified. The interpretation of GPR data depends largely on the 'dielectricconstant' of the material(s), which governs the passage of GPR signals through a material and the amount ofsignal energy reflected from features within a structure. This paper reports an investigation of pavement material samples, conducted under controlled conditions,using GPR. The effect of changes in material moisture and temperature on the dielectric constant, and hence thepassage of GPR signals, was investigated. Core samples of bituminous material obtained from highway pavementsites were used to conduct a series of laboratory tests, in which the temperature of the material was controlled inthe range from —5 to +45 degrees C, and the dielectric constant and GPR signal velocity were determined. Also,the materials dielectric constant and signal velocity were determined under dry and soaked moisture conditions. The test programme allowed an assessment of the effect of changes in materials temperature and moisture con-dition to the response of data obtained during GPR investigations. The results of the testing showed that both mois-ture and temperature can have a significant effect on the data obtained from GPR surveys of pavement structures.