Metal powders and use thereof

The invention claimed is: 1. Water or gas atomized metal powder comprising, by weight: C, 1-1.3%; Cr, 22-27%; Mn, 4-5%; Ni, 3-5%; Si, 3-4%; Mo, 1.5-2.5%; inclusions of MnS 4-15%; the balance comprising Fe, said powder being suitable for thermal surfacing. 2. The water or gas atomized metal powder of claim 1 , wherein the power consists of, by weight: C, 1-1.3%; Cr, 22-27%; Mn, 4-5%; Ni, 3-5%; Si, 3-4%; Mo, 1.5-2.5%; inclusions of MnS 4-15%; the balance consisting of Fe. 3. The water or gas atomized metal powder of claim 1 , wherein the power comprises, by weight: C, 1.2%; Cr, 25%; Mn, 4.5%; Ni, 4%; Si, 3.3%; Mo, 2%; inclusions of MnS 4-15%; the balance comprising Fe. 4. The water or gas atomized metal powder of claim 1 , wherein the power consists of, by weight: C, 1.2%; Cr, 25%; Mn, 4.5%; Ni, 4%; Si, 3.3%; Mo, 2%; inclusions of MnS 4-15%; the balance being Fe. 5. The water or gas atomized metal powder of claim 1 , wherein the amount of MnS is 4-8% by weight. 6. The water or gas atomized metal powder of claim 1 , wherein the amount of MnS is 5-7% by weight. 7. The water or gas atomized metal powder of claim 1 , wherein the particle size of the metal powder is from 45 μm to 200 μm. 8. The water or gas atomized metal powder of claim 1 , wherein the particle size of the metal powder is from 50-150 μm. 9. 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. 10. Metal coated component produced by the method according to claim 9 . 11. Metal coated component according to claim 10 , wherein the component is selected from the group consisting of industrial valves, sheet metal forming (SMF) tools, transport rollers in iron works, paper knives, and glass moulds.