Boron nitride aggregate powder

The invention claimed is: 1. A powder essentially composed of aggregates based on boron nitride, said powder exhibiting: a) the following overall chemical composition, as percentages by weight: between 40 and 45% of boron, limits included, between 53 and 57% of nitrogen, limits included, a calcium content of less than 400 ppm by weight, less than 5%, in total, of other elements; b) a structural composition comprising more than 90% of boron nitride, limit included, as percentage by weight and on the basis of the combined crystalline phases present in said powder, c) the following physical characteristics: a mean circularity of greater than or equal to 0.90, a median pore size of less than or equal to 1.5 μm, an apparent porosity of less than or equal to 55%. 2. The powder according to claim 1 , exhibiting a median pore size of less than or equal to 0.3 μm. 3. The powder according to claim 1 , exhibiting the following overall chemical composition: a boron content of greater than or equal to 41% and of less than or equal to 44%, a nitrogen content of greater than or equal to 54% and of less than or equal to 56%, a calcium content of less than 300 ppm by weight. 4. The powder according to claim 1 , exhibiting a chemical composition in which the content by weight of elements other than B, N and Ca is less than 4%, and in which the oxygen content is less than 5000 ppm by weight. 5. The powder according to claim 1 , exhibiting a chemical composition in which the other elements comprise an additive for the sintering of the boron nitride, in an amount of greater than or equal to 0.5% and of less than 4%. 6. The powder according to claim 5 , wherein the additive for the sintering of the boron nitride is chosen from LaB 6 ; oxides of rare earth metals, of elements from Groups 3 and 4 of the Periodic Table of the Elements and of their mixtures; nitrides of the elements from Group 4 of the Periodic Table of the Elements; and their mixtures. 7. The powder according to claim 1 , wherein the structural composition comprises more than 95% of boron nitride, as percentage by weight and on the basis of the combined crystalline phases present in the powder. 8. The powder according to claim 1 , exhibiting a structural composition in which the boron nitride is present for more than 60% under a hexagonal structure, as percentage by weight and on the basis of the crystalline boron nitride phases present in the powder. 9. The powder according to claim 1 , exhibiting a mean circularity of greater than or equal to 0.92. 10. The powder according to claim 1 , exhibiting a median pore size of less than or equal to 0.25 μm and of greater than 0.05 μm. 11. The powder according to claim 1 , exhibiting an apparent porosity of less than 50%. 12. The powder according to claim 1 , exhibiting a median size of greater than 30 μm and of less than 500 μm. 13. A process for the manufacture of a powder essentially composed of aggregates based on boron nitride, said powder exhibiting: a) the following overall chemical composition, as percentages by weight: between 40 and 45% of boron, limits included, between 53 and 57% of nitrogen, limits included, a calcium content of less than 400 ppm by weight, less than 5%, in total, of other elements; b) a structural composition comprising more than 90% of boron nitride, limit included, as percentage by weight and on the basis of the combined crystalline phases present in said powder, c) the following physical characteristics: a mean circularity of greater than or equal to 0.90, a median pore size of less than or equal to 1.5 μm, an apparent porosity of less than or equal to 55%, the process comprising the following stages: a) preparing a starting feedstock, the composition of which is adapted so as to obtain the powder on conclusion of stage g), the starting feedstock comprising boron nitride grains, the powder formed of boron nitride grains exhibiting an oxygen content of less than or equal to 10% by weight and a calcium content of less than 400 ppm by weight, b) optionally, grinding the starting feedstock, c) shaping the starting feedstock into the form of a block exhibiting a relative density of greater than or equal to 60%, d) grinding the block so as to obtain agglomerates, e) burnishing the agglomerates obtained at the end of stage d) so that the agglomerates exhibit a circularity of greater than or equal to 0.90, f) optionally, particle size selection of the agglomerates, g) sintering the agglomerates at a sintering temperature of greater than 1600° C. and of less than 2100° C., in an inert or weakly reducing atmosphere, h) optionally, particle size selection of the aggregates. 14. A process for the manufacture of a powder essentially composed of aggregates based on boron nitride, said powder exhibiting: a) the following overall chemical composition, as percentages by weight: between 40 and 45% of boron, limits included, between 53 and 57% of nitrogen, limits included, a calcium content of less than 400 ppm by weight, less than 5%, in total, of other elements; b) a structural composition comprising more than 90% of boron nitride, limit included, as percentage by weight and on the basis of the combined crystalline phases present in said powder, c) the following physical characteristics: a mean circularity of greater than or equal to 0.90, a median pore size of less than or equal to 1.5 μm, an apparent porosity of less than or equal to 55%, the process comprising the following stages: a′) preparing a starting feedstock, the composition of which is adapted so as to obtain the powder on conclusion of stage f′), the starting feedstock comprising grains of boron nitride, the powder formed of grains of boron nitride exhibiting an oxygen content of less than or equal to 10% by weight and a calcium content of less than 400 ppm by weight, b′) optionally, grinding the starting feedstock, c′) shaping the starting feedstock into the form of a block exhibiting a relative density of greater than or equal to 60%, d′) sintering the block at a sintering temperature of greater than 1600° C. and of less than 2100° C., in an inert or weakly reducing atmosphere, e′) grinding the block so as to obtain aggregates, f′) burnishing the aggregates obtained at the end of stage e′) so that the aggregates exhibit a circularity of greater than or equal to 0.90, g′) optionally, particle size selection of the aggregates. 15. The process according to claim 13 , wherein, in stage a), the total calcium content is less than 300 ppm by weight and/or the total oxygen content is less than 5%, as percentage by weight on the basis of the starting feedstock. 16. The process according to claim 13 , wherein, in stage c), the starting feedstock is shaped into the form of a block so that the relative density of the block is greater than 65%. 17. A particulate-filled polymer comprising a polymer in which a powder essentially composed of aggregates based on boron nitride is dispersed, said powder exhibiting: a) the following overall chemical composition, as percentages by weight: between 40 and 45% of boron, limits included, between 53 and 57% of nitrogen, limits included, a calcium content of less than 400 ppm by weight, less than 5%, in total, of other elements; b) a structural composition comprising more than 90% of boron nitride, limit included, as percentage by weight and on the basis of the combined crystalline phases present in said powder, c) the following physical characteristics: a mean circularity of greater than or eq