Method for preparing precipitated silicas, novel precipitated silicas and uses thereof, particularly for the reinforcement of polymers

The invention claimed is: 1. A process for preparing a precipitated silica, the process comprising: precipitating a silicate and an acidifying agent by: (i) forming an initial feedstock comprising a silicate and an electrolyte, the concentration of silicate expressed as SiO 2 in said initial feedstock being less than 100 g/l and the concentration of electrolyte in said initial feedstock being less than 17 g/l, (ii) adding the acidifying agent to said feedstock to form a reaction medium, wherein the acidifying agent is added until a value for the pH of the reaction medium of at least 7 is obtained, (iii) simultaneously adding acidifying agent and a silicate to the reaction medium to form a silica suspension, filtering the silica suspension to form a filter cake, subjecting the filter cake to a liquefaction operation to form a second filter cake, and drying the second filter cake, said process comprising one of the three following operations (a), (b) or (c): (a) adding at least one aluminum compound A and, subsequently or simultaneously, a basic agent to the reaction medium, after step (iii), (b) simultaneously adding a silicate and at least one aluminum compound A to the reaction medium, after step (iii) or in place of step (iii), (c) performing step (iii) by simultaneously adding to the reaction medium, acidifying agent, a silicate and at least one aluminum compound B, and wherein a mixture of polycarboxylic acids is added to the filter cake, either during the liquefaction operation, or after the liquefaction operation and before the drying step, the mixture of polycarboxylic acids comprising adipic acid, ethylsuccinic acid, and methylglutaric acid. 2. The process as claimed in claim 1 , wherein the process comprises: precipitating a silicate and an acidifying agent by: (i) forming an initial feedstock comprising a silicate and an electrolyte, the concentration of silicate expressed as SiO 2 in said initial feedstock being less than 100 g/l and the concentration of electrolyte in said initial feedstock being less than 17 g/l, (ii) adding the acidifying agent to said feedstock to form a reaction medium, wherein the acidifying agent is added until a value for the pH of the reaction medium of at least 7 is obtained, (iii) simultaneously adding acidifying agent and a silicate to the reaction medium, (iv) simultaneously adding at least one aluminum compound A and a basic agent to the reaction medium, and (v) adding acidifying agent to the reaction medium, to form a silica suspension, filtering the silica suspension to form a filter cake, subjecting the filter cake to a liquefaction operation to form a second filter cake, and drying the second filter cake, wherein the mixture of polycarboxylic acids is added to the filter cake, either during the liquefaction operation, or after the liquefaction operation and before the drying step. 3. The process as claimed in claim 1 , wherein the process comprises: precipitating a silicate and an acidifying agent by: (i) forming an initial feedstock comprising a silicate and an electrolyte, the concentration of silicate expressed as SiO 2 in said initial feedstock being less than 100 g/l and the concentration of electrolyte in said initial feedstock being less than 17 g/l, (ii) adding the acidifying agent to said feedstock to form a reaction medium, wherein the acidifying agent is added until a value for the pH of the reaction medium of at least 7 is obtained, (iii) simultaneously adding a silicate and at least one aluminum compound A to the reaction medium to form a silica suspension, filtering the silica suspension to form a filter cake, subjecting the filter cake to a liquefaction operation to form a second filter cake, and drying the second filter cake, wherein the mixture of polycarboxylic acids is added to the filter cake, either during the liquefaction operation, or after the liquefaction operation and before the drying step. 4. The process as claimed in claim 1 , wherein the process comprises: precipitating a silicate and an acidifying agent by: (i) forming an initial feedstock comprising a silicate and an electrolyte, the concentration of silicate expressed as SiO 2 in said initial feedstock being less than 100 g/l and the concentration of electrolyte in said initial feedstock being less than 17 g/l, (ii) adding the acidifying agent to said feedstock to form a reaction medium, wherein the acidifying agent is added until a value for the pH of the reaction medium of at least 7 is obtained, (iii) simultaneously adding acidifying agent, a silicate and at least one aluminum compound B to the reaction medium to form a silica suspension, filtering the silica suspension to form a filter cake, subjecting the filter cake to a liquefaction operation to form a second filter cake, and drying the second filter cake, wherein the mixture of polycarboxylic acids is added to the filter cake, either during the liquefaction operation, or after the liquefaction operation and before the drying step. 5. The process as claimed in claim 1 , wherein, during the liquefaction operation, the mixture of polycarboxylic acids is added to the filter cake. 6. The process as claimed in claim 1 , wherein the mixture of polycarboxylic acids is added to the filter cake after the liquefaction operation. 7. The process as claimed in claim 1 , wherein the liquefaction operation comprises the addition of at least one aluminum compound C. 8. The process as claimed in claim 7 , wherein, during the liquefaction operation, the mixture of polycarboxylic acids and at least one aluminum compound C are simultaneously added to the filter cake. 9. The process as claimed in claim 7 , wherein, during the liquefaction operation, at least one aluminum compound C is added to the filter cake prior to the addition of the mixture of polycarboxylic acids. 10. The process as claimed in claim 7 , wherein the mixture of polycarboxylic acids is added to the filter cake after the liquefaction operation.