Method for synthesizing diboride powder by dry route

1 . A method for synthesizing a diboride powder MB 2 , where M is a chemical element belonging to group 4 of the periodic table, by reducing an oxide of said M, comprising: preparing a mixture of raw materials comprising: a) a powder whose mass content of said oxide MO 2 is at least 95% and b) a powder comprising a boron oxide or a precursor of a boron oxide, the boron content of which, expressed in B 2 O 3 , is at least 30%; and c) a metal powder of at least one reducing element R, R being selected from Al, Si, Ti, Zr, Hf, Y, Sc, the lanthanides; and d) an oxide powder of an alkali element A, having a A 2 O mass content of at least 70%, in respective proportions leading to the following balance reaction, expressed according to said MO 2 , B 2 O 3 , R and A 2 O: MO 2 +B 2 O 3 +y R+ x A 2 O→MB 2 +A 2x R y O 5+x   (3) heating said mixture in an enclosure under a rare gas flow, at a temperature above 600° C. and below 1500° C., said mixture of raw materials having the following characteristics: a median particle diameter of said powder comprising the oxide MO 2 is between 1 and 100 microns, and a median particle diameter of the powder comprising a boron oxide or a boron oxide precursor is between 5 and 200 microns; and x is greater than or equal to 1 y is greater than 0.5. 2 . The method for synthesizing a diboride powder MB 2 , according to claim 1 , wherein an hydroxyl mass content in the oxide powder of alkali metal element A, calculated in the form of the mass of OH to the alkali metal, is less than 40%. 3 . The method for synthesizing a diboride powder MB 2 , according to claim 1 , wherein the boron oxide or the boron oxide precursor is chosen from sodium metaborate of chemical formula NaBO 2 , anhydrous borax of formula Na 2 B 4 O 7 , or other borates. 4 . The method for synthesizing a diboride powder MB 2 , according to claim 3 , wherein the powder comprising boron oxide is an anhydrous alkali borate powder. 5 . The method for synthesizing a powder of MB 2 , according to claim 1 , wherein the median particle diameter of said powder comprising the oxide MO 2 , is greater than 7 micrometers and/or less than 50 micrometers. 6 . The method for synthesizing a powder of MB 2 , according to claim 1 , wherein the median particle diameter of said powder comprising the boron oxide, is greater than 30 micrometers and/or less than 100 micrometers. 7 . The method for synthesizing a powder of MB 2 according to claim 1 , wherein a ratio of the median particle diameter of said powder comprising boron oxide to the median particle diameter of said powder comprising the oxide MO 2 , is less than 10 and/or greater than 1. 8 . The method for synthesizing a powder of MB 2 according to claim 1 , wherein the heating temperature in said enclosure is greater than 700° C. and/or less than 1400° C. 9 . The method for synthesizing a powder of MB 2 , according to claim 1 , wherein the rare gas is a selected from argon or helium. 10 . The method for synthesizing a powder of MB 2 , according to claim 9 , wherein A is the element Na. 11 . The method for synthesizing a powder of MB 2 , according to claim 10 , wherein R is the element Al and/or Si. 12 . The method for synthesizing a powder of MB 2 , according to claim 1 , wherein M is the element Ti, A is the element Na, and R is the element Al and/or Si. 13 . A powder comprising more than 95% by weight of the compound MB 2 obtained according to claim 1 , M being chosen among Ti, Zr, Hf, a median diameter of which is between 0.5 and 50 micrometers and a chemical composition of which comprises the following elemental mass percents: elemental oxygen (O): less than 1.3%; elemental carbon (C): less than 0.5%; elemental nitrogen (N): less than 0.5%; elemental sulfur (S): less than 400 ppm; elemental iron (Fe): less than 0.45%; elemental nickel (Ni): less than 0.4%; elemental cobalt (Co): less than 0.4%; elemental sum of the alkali metals (Li+Na+K+Rb+Cs): less than 1%; elemental sum of the alkaline earth metals (Be+Mg+Ca+Sr+Ba) less than 1%. content of element R in metal form: less than 2%, R being at least one element selected from Al, Si, Ti, Zr, Hf, Y, Sc, the lanthanides, a sum of the other elements being less than 2%. 14 . A powder of TiB 2 according to claim 13 , the chemical composition of which comprises the following elemental mass percents: titanium (Ti): greater than 68% and/or less than 72%, boron (B): greater than 29% and/or less than 33%, optionally phosphorus (P) less than 0.3%, metallic aluminum: less than 2%, metallic silicon; less than 1%. 15 . A powder of MB 2 according to claim 13 , wherein a ratio (D 90 −D 10 )/D 50 of equivalent diameter of the particles of the powder is less than 1.5. 16 . A mixture comprising between 90% and 99.9% by mass of a MB 2 powder according to claim 13 and between 0.1 and 10% by mass of one or more sintering powders chosen from powders of aluminum diboride, magnesium diboride, tungsten pentaboride, calcium hexaboride, silicon hexaboride, optionally zirconium diboride if M=Ti or Hf. 17 . A method for manufacturing a sintered ceramic body, comprising: a) preparing a starting feedstock including: the powder of MB 2 according to claim 13 , an aqueous solvent, optionally, shaping additives, b) shaping the starting feedstock into the form of a preform; c) removal from the mold after setting or drying; d) optionally, drying the preform, e) loading in a furnace and firing the preform under an inert atmosphere. 18 . A sintered ceramic body obtained by a method according to claim 17 . 19 . A method comprising providing a sintered ceramic body according to claim 18 as all or part of a membrane, a shielding or an anti-abrasion coating, a covering or a refractory block, an anode coating or block or a cathode coating or block, a heat exchanger, a metal melting crucible. 20 . The method for synthesizing a powder of MB 2 , according to claim 1 , wherein the mixture of raw materials consists of said a) powder whose mass content of said oxide MO 2 is at least 95%, said b) powder comprising a boron oxide or a precursor of a boron oxide, said c) metal powder, and said d) oxide powder.