Reactive fiber interface coatings for improved environmental stability

What is claimed is: 1. A composite material comprising: a matrix, and a plurality of coated fibers suspended in the matrix, the coated fibers each including a fiber and a multilayer interface coating deposited on the fiber, wherein the multilayer interface coating includes an oxide layer, a silicon containing compound layer, and a silicate that is formed at an interface of the oxide layer and the silicon containing compound layer and that is disposed between the fiber and the matrix, and wherein the oxide layer and the silicon containing compound layer are in direct contact with each other along the interface adjacent to the silicate. 2. The composite material of claim 1 , wherein the silicate is formed as the result of an oxidation reaction between the oxide layer and the silicon containing compound layer when the temperature of the multilayer interface coating is raised above 1000 degrees Celsius. 3. The composite material of claim 1 , wherein the fibers of the coated fibers include silicon carbide. 4. The composite material of claim 3 , wherein the silicon containing compound layer includes silicon carbide. 5. The composite material of claim 3 , wherein the matrix is a ceramic matrix including silicon carbide. 6. The composite material of claim 3 , wherein the oxide layer is a rare earth oxide. 7. The composite material of claim 6 , wherein the oxide layer includes at least one of Yttrium(III) oxide, Ytterbium oxide, Erbium(III) oxide, Lutetium(III) oxide, and Dysprosium(III) oxide. 8. The composite material of claim 3 , wherein the oxide layer includes a transition metal. 9. The composite material of claim 8 , wherein the oxide layer includes at least one of Zirconium dioxide and Hafnium(IV) oxide. 10. The composite material of claim 1 , wherein each of the oxide layer and the silicon containing compound layer has a thickness of between about 25 nanometers to about 100 nanometers. 11. The composite material of claim 1 , wherein at least one of the oxide layer and the silicon containing compound layer is porous. 12. A coated fiber for use in a composite material, the coated fiber comprising: a fiber and a multilayer interface coating deposited on the fiber, wherein the multilayer interface coating includes an oxide layer, a silicon containing compound layer, and a silicate that is formed by the oxide layer and the silicon containing compound layer and that is disposed adjacent to the fiber such that in use in the composite material the silicate is disposed between the fiber and a matrix of the composite material, and wherein the silicate is formed at an interface of the oxide layer and the silicon containing compound layer, and the oxide layer and the silicon containing compound layer are in direct contact with each other along the interface adjacent to the silicate. 13. The coated fiber of claim 12 , wherein the silicate is formed as the result of an oxidation reaction between the oxide layer and the silicon containing compound layer when the temperature of the multilayer interface coating is raised above 1000 degrees Celsius. 14. The coated fiber of claim 12 , wherein the silicon containing compound layer includes silicon carbide. 15. The coated fiber of claim 14 , wherein the fibers of the coated fibers include silicon carbide tows. 16. The coated fiber of claim 15 , wherein the oxide layer forms a first layer and the silicon containing compound layer forms a second layer and the second layer is arranged further from the fiber than the first layer. 17. The coated fiber of claim 16 , wherein the second layer is porous. 18. The coated fiber of claim 14 , wherein the silicon containing compound layer is porous.