In-situ composite formation of damage tolerant coatings utilizing laser

We claim: 1. A coated steel component comprising: a steel substrate; and a discontinuous pattern of surface features, each surface feature comprising a plurality of layers, wherein each layer comprises an iron comprising matrix containing crystalline particles, wherein each of the plurality of layers has a thickness of from 100 to 700 μm, and wherein said features are metallurgically bound to a surface of said substrate, wherein each of said surface features comprises an inner core of lower hardness than the outer surface of the feature, and wherein the inner core has a hardness of 226.8 to 450 kg/mm 2 and the outer surface of the feature has a hardness of from 825 to 1,350 kg/mm 2 . 2. The coated steel component of claim 1 , wherein said matrix is partially devitrified or fully devitrified. 3. The coated steel component of claim 1 , wherein said matrix is amorphous. 4. The coated steel component of claim 1 , wherein said crystalline particles comprise individually or in combination metal carbides, metal borides, metal carboborides or metal oxides. 5. The coated steel component of claim 4 , wherein said metal comprises one or more selected from the group consisting of tungsten, chromium, and molybdenum. 6. The coated steel component of claim 1 , wherein said pattern comprises stripes, freckles or any combination of stripes and freckles. 7. A coated steel component comprising a steel substrate; and a discontinuous pattern of surface features, wherein the discontinuous pattern of surface features comprises an amorphous ferrite matrix comprising precipitated crystalline particles selected from the group consisting of metal carboborides, metal oxides, and combinations thereof, wherein the ferrite matrix is at least partially devitrified, and where said surface features are metallurgically bound to a surface of said substrate, and wherein each of said surface features comprises an inner core of lower hardness than the outer surface of the feature, and wherein the inner core has a hardness of 226.8 to 450 kg/mm 2 and the outer surface of the feature has a hardness of from 825 to 1,350 kg/mm 2 .