Timepiece mechanism having a contact pair with no lubrication

What is claimed is: 1. A timepiece mechanism comprising at least one pair of components including a first component including a material selected from a first group consisting of silicon dioxide, natural diamond, micro- or nano-crystalline CVD diamond, solid monocrystalline diamond, and amorphous carbon known as diamond-like carbon or “DLC”, and having a first friction surface arranged to cooperate with a second friction surface comprised in a second opposing component, wherein said second opposing component includes, at least in said second friction surface thereof, a material with a high concentration of boron, greater than 10 atomic percent, and wherein said second component includes at least one ceramic containing boron. 2. The timepiece mechanism according to claim 1 , said second component includes at least said ceramic containing boron, either in a surface layer, or in the mass of said second component. 3. The timepiece mechanism according to claim 1 , wherein at least one surface layer of said second component is formed exclusively by one or more ceramics containing boron. 4. The timepiece mechanism according to claim 1 , wherein said second component is formed exclusively by one or more ceramics containing boron. 5. The timepiece mechanism according to claim 1 , wherein said ceramic containing boron is in a material taken from a second group including orthorhombic boride of formula: AlMgB14, orthorhombic boride of formula: A10.75Mg0.75B14, titanium diboride, aluminium diboride, zirconium diboride, tantalum diboride, nickel boride, vanadium triboride, silicon quadriboride, boron carbide, polycrystalline cubic boron nitride, hexagonal boron nitride, anhydrous boric oxide. 6. The timepiece mechanism according to claim 1 , wherein said ceramic containing boron is a non-oxide ceramic. 7. The timepiece mechanism according to claim 1 , wherein said ceramic containing boron includes an orthorhombic boride of formula: AlMgB14. 8. The timepiece mechanism according to claim 1 , wherein said ceramic containing boron includes an orthorhombic boride of formula: Al0.75Mg0.75B14. 9. The timepiece mechanism according to claim 1 , wherein said ceramic containing boron includes titanium diboride. 10. The timepiece mechanism according to claim 1 , wherein said ceramic containing boron includes an orthorhombic boride of formula: AlMgB14 or Al0.75Mg0.75B14, and titanium diboride. 11. The timepiece mechanism according to claim 10 , wherein said ceramic containing boron is aluminium-magnesium boride known as BAM and includes an orthorhombic boride of formula: AlMgB14, and titanium diboride. 12. The timepiece mechanism according to claim 10 , wherein said first component includes a first friction layer made of micro- or nano-crystalline CVD diamond. 13. The timepiece mechanism according to claim 1 , wherein said first component includes a first friction layer and wherein said second component includes a second friction layer, and wherein said first friction layer and said second friction layer each have a thickness of between 100 nanometers and 10000 nanometers. 14. The timepiece mechanism according to claim 1 , wherein said first component includes a first friction layer and wherein said second component includes a second friction layer, and wherein said first friction layer and said second friction layer have similar surface hardnesses on said first friction surface and second friction surface. 15. The timepiece mechanism according to claim 1 , wherein said first component includes a first friction layer, and wherein said first friction layer is made in a substrate in a material taken from a third group including silicon, silicon oxide, silicon dioxide, silicon carbide, silicon nitride, quartz, glass. 16. The timepiece mechanism according to claim 1 , wherein said second component includes a second surface friction layer, and wherein said second friction layer is made in a substrate in a material taken from a third group including silicon, silicon oxide, silicon dioxide, silicon carbide, silicon nitride, quartz, glass. 17. The timepiece mechanism according to claim 1 , wherein said second component includes a second surface friction layer, and wherein said second friction layer is made in a substrate in a material taken from a fourth group including carbon steels, cobalt-based super-alloys, copper alloys, brasses, maraging steels, high intensity stainless steels. 18. The timepiece mechanism according to claim 1 , wherein said first component includes a first friction layer, and wherein said first component is in one-piece with said first friction layer in a material taken from said first group. 19. The timepiece mechanism according to claim 1 , wherein said second component includes a surface friction layer, and wherein said second component is in one-piece with said second friction layer in a material formed by a ceramic containing boron, or including at least one ceramic containing boron. 20. The timepiece mechanism according to claim 1 , wherein the contact between said first friction surface and said second friction surface is a dry contact. 21. A timepiece movement including at least one timepiece mechanism according to claim 1 . 22. A timepiece including at least one timepiece mechanism according to claim 1 . 23. A method for making a timepiece mechanism according to claim 1 , wherein: one said first component includes a first friction layer made and coated in a material taken from said first group; one said second component includes a second friction layer made and coated in a ceramic containing boron, or including at least one ceramic containing boron; one said first friction surface of said first friction layer is made to cooperate in dry contact, without lubricant, with one said second friction surface of said second friction layer. 24. A timepiece mechanism comprising at least one pair of components including a first component including a material taken from a first group including silicon dioxide, natural diamond, micro- or nano-crystalline CVD diamond, solid monocrystalline diamond, and amorphous carbon known as diamond-like carbon or “DLC”, and having a first friction surface arranged to cooperate with a second friction surface comprised in a second opposing component, wherein said second opposing component includes, at least in said second friction surface thereof, a material with a high concentration of boron, greater than 10 atomic percent, and wherein said first component includes a first friction layer, and wherein said first component is in one-piece with said first friction layer in a material taken from said first group. 25. A timepiece mechanism comprising at least one pair of components including a first component including a material taken from a first group including silicon dioxide, natural diamond, micro- or nano-crystalline CVD diamond, solid monocrystalline diamond, and amorphous carbon known as diamond-like carbon or “DLC”, and having a first friction surface arranged to cooperate with a second friction surface comprised in a second opposing component, wherein said second opposing component includes, at least in said second friction surface thereof, a material with a high concentration of boron, greater than 10 atomic percent, and wherein said second component includes a surface friction layer, and wherein said second component is in one-piece with said second friction layer in a material formed by a ceramic containing