Metal powders and use thereof

The invention claimed is: 1. Water or gas atomized metal powder comprising, by weight: C, 0.05-0.2%; Si, 2.2-2.9; B, 0.8-1.3; Cr, 2.8-3.45; Fe, 1.4-2.3; Al, 0.3-0.5; inclusions of MnS, 4-15%; the balance being Ni, said powder being suitable for thermal surfacing. 2. Water or gas atomized metal powder comprising, by weight: C, 0.05-0.2%; Si, 2.2-2.9; B, 0.8-1.3; Cr, 2.8-3.45; Fe, 1.4-2.3; Al, 0.3-0.5; inclusions of MnS, 4-15%; the balance being Co, said powder being suitable for thermal surfacing. 3. Metal powder according to claim 1 , wherein the amount of MnS is 4-8% by weight. 4. Metal powder according to claim 1 , wherein the particle size of the metal powder is from 45 μm to 200 μm. 5. Method for surface coating metal parts, by way of laser cladding or PTA (plasma transferred arc), with a metal powder according to claim 1 , thereby producing a metal coated component. 6. Metal coated component produced by the method according to claim 5 . 7. Metal coated component according to claim 6 , wherein the component is selected from the group consisting of industrial valves, sheet metal forming (SMF) tools, transport rollers in iron works, paper knifes, and glass moulds. 8. Metal powder according to claim 1 , the metal powder consisting of, by weight: C, 0.05-0.2%; Si, 2.2-2.9; B, 0.8-1.3; Cr, 2.8-3.45; Fe, 1.4-2.3; Al, 0.3-0.5; inclusions of MnS, 4-15%; the balance being Ni. 9. Metal powder according to claim 2 , the metal powder consisting of, by weight: C, 0.05-0.2%; Si, 2.2-2.9; B, 0.8-1.3; Cr, 2.8-3.45; Fe, 1.4-2.3; Al, 0.3-0.5; inclusions of MnS, 4-15%; the balance being Co. 10. Metal powder according to claim 1 , wherein the amount of MnS is 5-7%, by weight. 11. Metal powder according to claim 1 , wherein the particle size of the metal powder is from 50-150 μm.