Laser cladding using flexible cord of hardfacing material with diamond

What is claimed is: 1. A method of hardfacing a component, comprising: generating a laser beam and directing the laser beam to an area of a wear surface of the component; feeding a flexible cord of a cladding material into the laser beam to melt the flexible cord and produce a bead of the cladding material on the wear surface, wherein the flexible cord includes an inner metal wire surrounded by an agglomerate of abrasion and wear-resistant material that contains diamond particles; and moving the laser beam and the flexible cord along the wear surface to produce a cladding layer over the wear surface of the component. 2. The method of claim 1 , wherein the agglomerate surrounding the inner metal wire is formed as a paste that is extruded onto the inner metal wire and allowed to dry and harden to form the flexible cord. 3. The method of claim 2 , wherein the agglomerate contains a metal matrix, an organic binder, and the diamond particles. 4. The method of claim 3 , wherein the diamond particles contained within the agglomerate are coated with a protective coating. 5. The method of claim 4 , wherein the protective coating on the diamond particles includes one of Ni or Cu that has been bonded to the diamond particles through one of electrolysis, electroless plating, or electroplating. 6. The method of claim 5 , wherein the agglomerate contains 40%±10% by weight metal combined with the organic binder and 60%±10% by weight hard particles that include the diamond particles. 7. The method of claim 6 , wherein the diamond particles are 1-30% by weight of the hard particles, with the remainder of the hard particles including tungsten carbide particles. 8. The method of claim 7 , wherein the diamond particles are at least one of synthetic diamonds and natural diamonds. 9. The method of claim 8 , wherein the diamond particles are 250 μm±10% in diameter. 10. A laser cladding process, comprising: generating a laser beam and directing the laser beam to an area of a wear surface of a component; and feeding a flexible cord of a cladding material into the laser beam to melt the flexible cord and produce a bead of the cladding material on the wear surface, wherein the flexible cord includes an inner metal wire surrounded by an agglomerate of abrasion and wear-resistant material, the agglomerate containing a metal matrix, an organic binder, and diamond particles, and being formed as a paste extruded onto the inner metal wire and allowed to dry and harden to form the flexible cord. 11. The laser cladding process of claim 10 , wherein the diamond particles contained within the agglomerate are coated with a protective coating; wherein the protective coating on the diamond particles includes one of Ni or Cu that has been bonded to the diamond particles through one of electrolysis, electroless plating, or electroplating; and wherein the agglomerate contains 40%±10% by weight metal combined with the organic binder and 60%±10% by weight hard particles that include up to 30% by weight of the hard particles being the diamond particles with the remaining hard particles including tungsten carbide.