In this thesis, we present an experimental study including, besides the destructive measurements usually implemented for the characterization of cementitious materials, non-destructive techniques using ultrasonic wave propagation in a frequency range from 50kHz to 600kHz. The objective is to study the correlations between hydraulic, mechanical properties and linear ultrasonic parameters (velocity and attenuation) of cement paste. This study specifically addresses the relationship between porosity and ultrasonic velocity of the different types of waves (body waves and Rayleigh wave). The studied materials are cement pastes with variable porosity, made up with different water / cement ratios and with different concentrations of air entrainer. To take into account the effect of water content, measurements are made at different states of saturation: saturated state, 70% saturation, 30% saturation and dry state. The data collected allows the creation of a database of experimental data involving physical, mechanical and ultrasonic parameters of cement paste. In the final part of this thesis, relationships between ultrasonic velocity and porosity based on macroscopic and microscopic approaches are presented and compared with measurements