Multilayer composite fuel clad system with high temperature hermeticity and accident tolerance

What is claimed is: 1. A ceramic- and metallic-containing multilayer cladding, comprising: an inner layer having an interior surface and an exterior surface composed of metal or metal alloy, structured to form a cavity therein for containing nuclear fuel; an intermediate layer having an interior surface and an exterior surface, formed on the exterior surface of the inner layer, the intermediate layer comprising: a composite, comprising: interlocking ceramic fibers and a matrix selected from the group consisting of ceramic matrix, metal matrix and combinations thereof; or interlocking ceramic fibers; and an outer layer having an interior surface and an exterior surface, in a coating form composed of aluminum or aluminum alloy deposited on the exterior surface of the intermediate layer. 2. The multilayer cladding of claim 1 , wherein the inner layer is structured to form a cylindrical tube. 3. The multilayer cladding of claim 1 , wherein the inner layer comprises a material selected from the group consisting of austenitic steel, ferritic-martensite steel, iron alloy, zirconium alloy, titanium alloy and layered combinations thereof. 4. The multilayer cladding of claim 1 , wherein the composite comprises woven or braided silicon carbide fibers and a silicon carbide matrix. 5. The multilayer cladding of claim 1 , wherein the composite comprises woven or braided alumina fibers and an alumina matrix. 6. The multilayer cladding of claim 1 , wherein the ceramic fibers are in a form of fiber tows configured in a woven or wound structure. 7. The multilayer cladding of claim 1 , wherein the matrix is deposited onto and into a woven or wound ceramic fiber structure. 8. The multilayer cladding of claim 1 , wherein the outer layer is an alumina forming metal alloy with an oxidation resistant coating thereon. 9. The multilayer cladding of claim 8 , wherein the outer layer comprises iron-chromium-aluminum alloy optionally with an addition of yttrium. 10. A method of forming a ceramic- and metallic-containing multilayer cladding, comprising: forming an inner layer having an interior surface and an exterior surface composed of metal or metal alloy, structured to form a cavity therein for containing nuclear fuel; applying an intermediate layer having an interior surface and an exterior surface, to the exterior surface of the inner layer, the intermediate layer comprising: a composite, comprising: interlocking ceramic fibers and a matrix selected from the group consisting of ceramic matrix, metal matrix and combinations thereof; or interlocking ceramic fibers; and depositing an outer layer having an interior surface and an exterior surface in a coating form composed of aluminum or aluminum alloy on the exterior surface of the intermediate layer. 11. The method of claim 10 , wherein applying the intermediate layer comprises: obtaining ceramic fibers in a form of fiber tows; wrapping, winding or braiding the tows onto the inner layer; forming a woven ceramic fiber structure, wherein voids are formed therein; and depositing the matrix over the woven ceramic structure employing a process selected from chemical vapor deposition, chemical vapor infiltration and sol gel infiltration, to at least partially fill the voids. 12. The method of claim 10 , wherein the outer layer encapsulates the inner layer and intermediate layer of the ceramic- and metallic-containing multilayer cladding. 13. The method of claim 10 , wherein the outer layer is formed by a process selected from arc, liquid phase or cold spraying.