Method for manufacturing a part made of composite material with liquid compacting

The invention claimed is: 1. A method for manufacturing a part made of composite material comprising: arrangement of a fibrous preform in a mold comprising an impregnation chamber being in contact with a first face of the preform on a support surface of the impregnation chamber, the impregnation chamber being closed by a flexible membrane placed facing a second face of the preform opposite the first face, said membrane separating the impregnation chamber from a compaction chamber, injection of a compression fluid into the compaction chamber and injection of an impregnation fluid comprising a matrix precursor into the impregnation chamber, solidification treatment of the matrix precursor within the fibrous preform so as to obtain a part made of composite material comprising a fibrous reinforcement bound by a solid matrix, wherein the compression fluid is a liquid in which a value of a density corresponds to between 60% and 125% of a value of a density the impregnation fluid and wherein the compression fluid and the impregnation fluid have the same composition. 2. A method for manufacturing a part made of composite material comprising: arrangement of a fibrous preform in a mold comprising an impregnation chamber being in contact with a first face of the preform on a support surface of the impregnation chamber, the impregnation chamber being closed by a flexible membrane placed facing a second face of the preform opposite the first face, said membrane separating the impregnation chamber from a compaction chamber, injection of a compression fluid into the compaction chamber and a filling comprising injection of an impregnation fluid comprising a matrix precursor into the impregnation chamber, solidification treatment of the matrix precursor within the fibrous preform so as to obtain a part made of composite material comprising a fibrous reinforcement bound by a solid matrix, wherein the compression fluid is a liquid in which the value of the density corresponds to between 60% and 125% of the value of the density the impregnation fluid, wherein the injection of the compression fluid is carried out at least in part during the filling of the impregnation chamber with the impregnation fluid so that a difference in filling height between the compression fluid and the impregnation fluid measured at the membrane according to a direction of gravity is positive or zero, and less than 500 mm, the filling height of the compression fluid measured at the membrane being greater than or equal to the filling height of the impregnation fluid measured at the membrane according to the direction of gravity and so that a pressure difference between the compression fluid and the impregnation fluid on either side of the membrane is less than 0.3 bar. 3. The manufacturing method according to claim 2 , wherein the fibrous preform disposed in the mold extends over a height greater than or equal to 300 mm in the direction of gravity. 4. The manufacturing method according to claim 2 , wherein a difference between a pressure exerted by the impregnation fluid on the membrane and a pressure exerted by the compression fluid on the membrane is less than 0.5 bar. 5. The manufacturing method according to claim 2 , wherein the impregnation fluid is a suspension comprising a plurality of matrix precursor particles, a support surface of the impregnation chamber of the mold comprising a filter configured to retain the particles of the suspension in the impregnation chamber. 6. The manufacturing method according to claim 2 , wherein at least a portion of the compression fluid introduced into the compaction chamber is then introduced into the impregnation chamber. 7. The manufacturing method according to claim 6 , wherein the introduction of said portion of the compression fluid into the impregnation chamber is carried out by a series network connecting the compaction chamber and the impregnation chamber, said network comprising a permanent pressure control device. 8. The manufacturing method according to claim 2 , wherein a pressure exerted on the membrane by the compression fluid is increased after filling the impregnation chamber. 9. The manufacturing method according to claim 2 , wherein the increase in the pressure exerted on the membrane by the compression fluid is achieved by increasing the filling height of the compression fluid. 10. The manufacturing method according to claim 8 , wherein the compression fluid has an isothermal compressibility of less than 10 −9 Pa −1 and walls of the walls of the compaction chamber are non-deformable with the exception of the membrane, the increase in a pressure exerted on the membrane by the compression fluid being carried out by closing the compaction chamber so that the compaction chamber is filled by the compression fluid. 11. The manufacturing method according to claim 8 , wherein the mold comprises a device for adjusting the volume of the compaction chamber including at least one moving element.