Wear resistant material and system and method of creating a wear resistant material

What is claimed is: 1. A point for an excavating tooth having a working portion to contact the ground during operation of the earthmoving equipment, the working portion including a steel substrate having oppositely-facing surfaces extending to a distal end, a cavity formed in each of the oppositely-facing surfaces extending rearward from the distal end, a composite coating filling each of the cavities to overlay those portions of the oppositely-facing surfaces and the distal end that are within each of the cavities, and a shell secured to the substrate rearward of each of the cavities to define an outer shape of the composite coating, the composite coating comprising a porous wear resistant material infiltrated by a matrix material wherein the matrix material is principally ductile iron and bonds the composite coating to the working portion and the shell. 2. The point of claim 1 , wherein the matrix material has a composition comprising, in weight percent, approximately 3.0-4.0% carbon, approximately 1.8-2.8% silicon, approximately 0.1-1.0% manganese, approximately 0.01-0.03% sulfur, and approximately 0.01-0.1% phosphorous, with the balance being iron and incidental elements and impurities. 3. The point of claim 2 , wherein the composition of the matrix material further comprises up to 37 wt. % nickel. 4. The point of claim 2 , wherein the composition of the matrix material further comprises up to 5.5 wt. % chromium. 5. The point of claim 1 , wherein the composition of the matrix material further comprises up to 5.5 wt. % silicon. 6. The point of claim 1 , wherein the porous wear resistant material is a particulate material, and the matrix material bonds the wear resistant material together. 7. The point of claim 1 , wherein the wear resistant material comprises one or more materials selected from the group consisting of: carbides, nitrides, borides, silicides, intermetallic compounds of transition metals, and combinations thereof. 8. The point of claim 1 , wherein the steel substrate has a plurality of protrusions connected to the working portion and extending outwardly from the working portion, and wherein the protrusions are embedded within the composite coating. 9. The point of claim 8 , wherein the plurality of protrusions comprise a plurality of rib members symmetrically distributed on the working portion. 10. The point of claim 1 , wherein the composite coating has a thickness that is greater than a thickness of the substrate. 11. The point of claim 1 , wherein the composite coating has a thickness of at least 7.5 inches. 12. The point of claim 1 , wherein the shell has a conformal band in contact with the working portion rearward of the cavities. 13. The point of claim 12 , wherein the shell is connected to the steel substrate by welding or brazing rearward of the cavities. 14. The point of claim 1 where the wear resistant material within the cavity is primarily particles less than 1 mm in size.