Method for injecting ceramic powders with filter created in situ in the fibrous preform

1 . A method for injecting ceramic particles into a fibrous texture comprising: placing a fibrous texture in a mould, the fibrous texture being interposed between one or more first ports and one or more second ports, injecting through the one or more first ports a first suspension comprising a powder of filtration particles having a particle size greater than a size of interstices of a pore network of the fibrous texture; draining a liquid phase of the first suspension by the fibrous texture, evacuating said liquid phase through the one or more second ports and retaining the filtration particles by the fibrous texture so as to form a filtration layer between said fibrous texture and the one or more first ports, injecting a second suspension into the fibrous texture through the one or more second ports, the second suspension comprising a powder of refractory ceramic particles with a particle size smaller than the size of the interstices of the pore network of the fibrous texture, draining through the filtration layer a liquid phase of the second suspension having passed through the fibrous texture and retaining refractory ceramic particle powder inside said fibrous texture by the filtration layer so as to obtain a fibrous preform comprising at least the fibrous texture filled with refractory ceramic particles and the filtration layer, the liquid phase of the second suspension being evacuated through the first port(s). 2 . A method according claim 1 , wherein the powder of the first suspension is a ceramic or glass precursor. 3 . A method according to claim 1 , wherein the filtration layer has an average thickness comprised between 100 μm and 200 μm. 4 . A method according to claim 1 , wherein the size of the particles of the second suspension is, on average, 5 to 15 times smaller than an average size of the interstices of the pore network of the fibrous texture. 5 . A method according to claim 1 , wherein the particles of the second suspension are made of a material chosen from: alumina, mullite, silica, an aluminosilicate, an aluminophosphate, zirconia, a carbide, a boride, a silicide and a nitride or a mixture of several of these materials. 6 . A method according to claim 1 , wherein the fibrous texture comprises a fibrous structure obtained by two-dimensional weaving, or three-dimensional or multilayer weaving, or automatic placement of unidirectional fibres. 7 . A method according to claim 1 , wherein threads of the fibrous texture are formed of fibres consisting of one or more of the following materials: alumina, mullite, silica, an aluminosilicate, a borosilicate, carbide silicon and carbon. 8 . A method according to claim 1 , wherein the mould has an annular or frustoconical geometry of revolution, the fibrous texture being shaped according to an annular or frustoconical geometry of revolution when placed in the mould. 9 . A method of manufacturing a composite material comprising performing an injection method according to claim 1 , and performing a heat treatment of the refractory ceramic particles present in the fibrous texture of the preform in order to form a composite material part comprising at least said fibrous texture densified by a refractory ceramic matrix and the filtration layer.