High pressure carbide component with surfaces incorporating gradient structures

What is claimed is: 1. An anvil comprising: a first layer having a working surface for applying high pressure, the first layer comprising: a hard phase; and a metal matrix phase in which the hard phase is dispersed, wherein a concentration of the metal matrix phase varies according to a concentration gradient, wherein the concentration gradient extends from the working surface to a gradient depth, and wherein the concentration of the metal matrix phase is less at the working surface than at the gradient depth. 2. The anvil of claim 1 , wherein the hard phase comprises a hard material selected from the group consisting of tungsten carbide, tantalum carbide, titanium carbide and combinations thereof. 3. The anvil of claim 1 , wherein the metal matrix phase comprises a material selected from the group consisting of Co, Fe, Ni and combinations thereof. 4. The anvil of claim 1 , wherein the gradient depth is less than or equal to a thickness of the first layer. 5. The anvil of claim 4 , wherein a concentration of the metal matrix phase at the working surface is lower than a concentration of the metal matrix phase at the gradient depth within the anvil by an amount in a range of about 1 to about 2%. 6. The anvil of claim 4 , wherein a concentration of the metal matrix phase at the working surface is lower than a concentration of the metal matrix phase at the gradient depth within the anvil by an amount in a range of about 2 to about 4%. 7. The anvil of claim 4 , wherein a concentration of the metal matrix phase at the working surface is lower than a concentration of the metal matrix phase at the gradient depth within the anvil by an amount in a range of about 4 to about 6%. 8. The anvil of claim 4 , wherein the concentration of the metal matrix phase at the working surface is in a range of about 5 weight percent to about 9 weight percent based on the total weight of the hard phase and the metal matrix phase. 9. The anvil of claim 4 , wherein the concentration of the metal matrix phase at the gradient depth within the anvil is in a range of about 9 weight percent to about 14 weight percent based on the total weight of the hard phase and the metal matrix phase. 10. The anvil of claim 4 , wherein the concentration of the metal matrix phase increases along the concentration gradient as it extends from the working surface to the gradient depth within the anvil. 11. The anvil of claim 4 , wherein the gradient depth within the anvil is in a range of about 0.1 mm to about 3 mm from the working surface. 12. The anvil of claim 1 , wherein the anvil further comprises a second layer comprising: a second hard phase; and a second metal matrix phase in which the second hard phase is dispersed, wherein a concentration of the second metal matrix phase varies according to a second concentration gradient. 13. An ultra-high pressure press comprising the anvil of claim 1 . 14. The ultra-high pressure press of claim 13 , further comprising a belt comprising a hard phase and a metal matrix phase in which the hard phase is dispersed, wherein a concentration of the metal matrix phase varies according to a concentration gradient. 15. The anvil of claim 12 , wherein the metal matrix phase is a first metal matrix phase, wherein the concentration gradient is a first concentration gradient which extends from the working surface to a first gradient depth, wherein the concentration of the second metal phase is higher at a surface of the second layer than at a second gradient depth of the second layer opposite the surface of the second layer. 16. The anvil of claim 15 , wherein the first concentration gradient decreases from the first gradient depth to the working surface and the second concentration gradient increases from the second gradient depth to the surface of the second layer. 17. The anvil of claim 15 , wherein the first concentration gradient extends along an entire thickness of the first layer and the second concentration gradient extends along an entire thickness of the second layer. 18. The anvil of claim 15 , wherein the first gradient extends along less than an entire thickness of the first layer and wherein the second gradient extends along less than an entire thickness of the second layer.