Composition of particulate materials and process for obtaining self-lubricating sintered products

The invention claimed is: 1. A metallurgical composition of particulate materials, for forming conformed and sintered self-lubricating composite products, comprising: a main particulate metallic material, in the form of a main chemical element, wherein the main particulate metallic material is iron, and at least one particulate hardening element, which form a structural matrix in the composite product to be sintered wherein the particulate hardening element has the function of hardening the structural matrix; a non-metallic particulate solid lubricant, at least partially soluble in the structural matrix, wherein the particulate solid lubricant is a mixture consisting of graphite and hexagonal boron nitride; an alloy component, with the function of stabilizing the iron alpha phase and of preventing the solubilization of the particulate solid lubricant in the iron; and at least one particulate alloy element capable of forming, during a sintering of a conformed metallurgical composition, a liquid phase between the main particulate metallic material which forms the structural matrix and the particulate solid lubricant, agglomerating the latter in discrete particles; wherein the particulate solid lubricant represents a volumetric percentage lower than or equal to 15% of the volume of the composite material to be formed and the particulate hardening element, the particulate alloy element and the alloy component are silicon, at contents from 2% to 5% by weight of the metallurgical composition; and wherein said composition being conformed by compaction and characterized in that the main particulate metallic material of iron presents an average particle size lying between about 10 μm and about 90 μm, the hardening element with the function of hardening the structural matrix, and the particulate alloy element with the function of forming the liquid phase and agglomerating the particulate solid lubricant, during the sintering of the metallurgical composition conformed by compaction, presenting an average particle size smaller than about 45 μm. 2. A metallurgical composition of particulate materials, for forming conformed and sintered self-lubricating composite products, characterized in that it comprises: a main particulate metallic material, in the form of a main chemical element, wherein the main particulate metallic material is nickel, and at least one particulate hardening element, which form a structural matrix in the composite product to be sintered; a non-metallic, wherein a particulate solid lubricant is selected from graphite, hexagonal boron nitride or from a mixture of both in any proportion; and at least one particulate alloy element capable of forming, during the sintering of the conformed metallurgical composition, a liquid phase between the main particulate metallic material which forms the structural matrix and the particulate solid lubricant, agglomerating the particulate solid lubricant in discrete particles, wherein the particulate hardening element, with the junction of hardening the nickel matrix, and the particulate alloy element, with the function of forming the liquid phase and agglomerating the solid lubricant in discrete particles, are a mixture consisting of silicon, phosphorus and chrome, at contents from 2% to 8% by weight of the metallurgical composition. 3. The composition, as set forth in claim 2 , conformed by compaction and characterized in that the main particulate metallic material of nickel presents an average particle size lying between 10 μm and 90 μm, the particulate hardening element, with the function of hardening the matrix, and the particulate alloy element, with the function of forming the liquid phase and agglomerating the particulate solid lubricant during the sintering of the metallurgical composition conformed by compaction, presenting an average particle size equal to or smaller than about 45 μm. 4. The composition, as set forth in claim 2 , conformed by injection molding and characterized in that it further comprises an organic binder and that the main particulate metallic material of nickel, the hardening element, the particulate alloy element which forms the liquid phase, and the particulate solid lubricant present an average particle size lying between about 1 μm and about 45 μm. 5. A metallurgical composition of particulate materials, for forming conformed and sintered self-lubricating composite products, comprising: a main particulate metallic material, in the form of a main chemical element, wherein the main particulate metallic material is iron, and at least one particulate hardening element, which form a structural matrix in the composite product to be sintered wherein the particulate hardening element has the function of hardening the structural matrix; a non-metallic particulate solid lubricant, at least partially soluble in the structural matrix, wherein the particulate solid lubricant is a mixture consisting of graphite and hexagonal boron nitride; an alloy component, with the function of stabilizing the iron alpha phase and of preventing the solubilization of the particulate solid lubricant in the iron; and at least one particulate alloy element capable of forming, during a sintering of a conformed metallurgical composition, a liquid phase between the main particulate metallic material which forms the structural matrix and the particulate solid lubricant, agglomerating the latter in discrete particles; wherein the particulate solid lubricant represents a volumetric percentage lower than or equal to 15% of the volume of the composite material to be formed and the particulate hardening element, the particulate alloy element and the alloy component are silicon, at contents from 2% to 5% by weight of the metallurgical composition; and wherein the composition being conformed by injection molding and characterized in that it further comprises an organic binder and in that the main particulate metallic material of iron, the particulate hardening element, the particulate alloy element, which forms the liquid phase, and the particulate solid lubricant present an average particle size lying between about 1 μm and about 45 μm. 6. The composition, as set forth in claim 5 , characterized in that the organic binder is selected from the group consisting of paraffin waxes and EVA waxes in a proportion ranging from about 40% to about 45% of the total volume of the metallurgical composition.