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A composite powder for a deposition of a composite coating comprises a nonmetallic component and a metallic component, the metallic component having an amorphous structure or a nanocrystalline structure. The metallic component may include an amorphous metallic alloy. The metallic alloy may include c

A composite powder for a deposition of a composite coating comprises a nonmetallic component and a metallic component, the metallic component having an amorphous structure or a nanocrystalline structure. The metallic component may include an amorphous metallic alloy. The metallic alloy may include constituents having the amorphous structure. The metallic component may include a combination of the metallic alloy existing in the amorphous state and constituents of the amorphous metallic alloy in the amorphous state. The composite metal-ceramic powders are used for depositing composite coatings on a selected surface. Disclosed are several methods and systems for producing such composite powders. Disclosed are also several methods and systems for depositing composite coatings. Advantageously, the deposited coatings exhibit high corrosion resistance, high wear resistance, and excellent structural properties.

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The invention claimed is: 1. A composite powder for a deposition of composite coatings comprising: at least two components including a nonmetallic component, present in the range of about 40-84% by weight, wherein said nonmetallic component is selected from the group consisting of carbides, borides

The invention claimed is: 1. A composite powder for a deposition of composite coatings comprising: at least two components including a nonmetallic component, present in the range of about 40-84% by weight, wherein said nonmetallic component is selected from the group consisting of carbides, borides, nitrides, carbonitrides, oxides, oxycarbonitrides or a combination thereof and has a size of more than 0.2 microns; and an amorphous component comprising an alloy containing at least one of Fe, Co, or Ni, and wherein said amorphous component has less than about 50% crystallinity and a size of less than 100 microns; and wherein said components are mixed together to provide said composite powder having a particle size in the range of about 15-160 microns. 2. The composite powder of claim 1, wherein said amorphous component further comprises a transition metal selected from the group consisting of Mo, Cr, W or combinations thereof, present at about 43% by weight or less. 3. The composite powder of claim 1, wherein the amorphous component further comprises an element selected from the group consisting of C, Si, B, Mn or combinations thereof, present at about 14% by weight or less. 4. The composite powder of claim 1, wherein at least one of said components comprises agglomerates. 5. The composite powder of claim 1, further comprising agglomerates of said components, wherein component size is less than 10 microns. 6. The composite powder of claim 5, wherein said amorphous component has a mean size of about 2.5 μm. 7. The composite powder of claim 1, wherein said components have a size of more than 15 microns. 8. The composite powder of claim 7, wherein said nonmetallic component has a size of less than 50 microns. 9. The composite powder of claim 1, further comprising a third metallic component. 10. The composite powder of claim 9, wherein said third metallic component comprises a crystalline metal comprising Co, Ni, Cr or combinations thereof. 11. The composite powder of claim 9, wherein said third metallic component is less than about 50% by volume of the total metallic phase. 12. The composite powder of claim 9, wherein said nonmetallic component is mixed with said third metallic component. 13. The composite powder of claim 9, wherein said nonmetallic component has an average size of 0.2 to 10 microns.