Wear resistant coatings for tool dies

The invention claimed is: 1. A wear resistant composite coating for an extrusion die for forming a green ceramic body, the wear resistant composite coating comprising: a. a base layer disposed on the surface of the extrusion die; b. a plurality of layers disposed over the base layer, the plurality of layers comprising a first layer of a fine grained material having an average grain size less than 0.05 μm alternating with a second layer of a coarse grained material having an average grain size of at least 1 μm; and c. an outer layer of the fine grained material disposed over the plurality of layers, the outer layer having an outer surface, wherein the outer surface has a fine grained equiaxial morphology that has a Rq roughness in a range from about 0.03 μm up to about 0.8 μm Rq, and the outer layer comprises at least one of an inorganic carbide, an inorganic nitride, and combinations thereof, having an average grain size less than or equal to about 0.05 μm. 2. The wear resistant composite coating of claim 1 , wherein the morphology is an equiaxial morphology and the outer layer of fine grained material has an average grain size less than or equal to about 0.05 μm. 3. The wear resistant composite coating of claim 1 , wherein the base layer comprises titanium carbide. 4. The wear resistant composite coating of claim 1 , wherein the first layer comprises titanium carbonitride and at least one dopant. 5. The wear resistant composite coating of claim 4 , wherein the dopant is one of boron, sulfur, carbon monoxide, and aluminum. 6. The wear resistant composite coating of claim 4 , wherein the second layer consists essentially of titanium carbonitride. 7. The wear resistant composite coating of claim 4 , wherein the wear resistant composite coating has a thickness of up to about 65 μm. 8. A method of depositing a wear resistant layer on a tool die, the method comprising the steps of: a. depositing a base layer on a surface of the tool die; b. depositing a plurality of layers over the base layer, the plurality of layers comprising a first layer of a fine grained material having an average grain size less than 0.05 μm alternating with a second layer of a coarse grained material having an average grain size of at least 1 μm; and c. depositing an outer layer of the fine grained material over the plurality of layers, the outer layer having an outer surface, wherein the outer surface has a morphology that has a mean roughness in a range from about 0.03 μm up to about 0.8 μm Rq, and the outer layer comprises at least one of an inorganic carbide, an inorganic nitride, and combinations thereof, having an average grain size less than or equal to about 0.05 μm. 9. The method of claim 8 , wherein at least one of the base layer, the plurality of layers, and the outer layer are deposited by chemical vapor deposition.