Mili, F.Lekrine, A.Bouyaya, L.Bourouis, F.2020-10-082020-10-082010-01-01Articale in Journal of fundamental and Applied Sciences Vol. 02 N. 011112-9867http://dspace.univ-eloued.dz/handle/123456789/7109Articale in Journal of fundamental and Applied Sciences Vol. 02 N. 01The great interest which the wind power brings in the development of the various economic sectors encourages to contribute in the improvement of the hydrothermal and mechanical performances of the blades of wind rotors with horizontal axis. The use of composite materials involves a profit of substantial weight, strength to the directional constraints that the blade will undergo during its work and a reduction of the aerodynamic and mechanical losses. The adoption of composite materials with unidirectional reinforcement carbon/epoxy makes it possible to get for the structure a high wear resistance and a reduction of the phenomenon of bearing pressure created around the airfoil of the blade moving relative compared to the speed of the wind. The evaluation of the behavior of such composites with [+θ/- θ]4S stacking sequence, with the combined effect of the temperature, the moisture and the tensile effort constitutes the principal axis of this contribution. In order to minimize the costs, our analysis will direct towards hybrid composite materials glass-carbon/epoxy being presented in the form of symmetrical laminates [+/0°]2S and antisymmetric [+/0°/90°/-]. The results obtained showed that their use contributes to the improvement of their thermomechanical behavior by involving profits of performance, weight, cost savings and energy.frWind blade, Hybrid composite, Temperature, Moisture, Failure.Effect Of Climatic Factor On The Mechanical Behaviour Of Aeolian Blades: Application Of Hybrid Composite MaterialsArticle