Patent Number: 054694817
Section: claims

1. A method of making a cladding tube having an outer substrate, an intermediate zirconium barrier layer, and a zirconium-based inner liner having alloying elements, the substrate, barrier layer, and inner liner each having interior and exterior circumferential surfaces, the method comprising the following steps: (a) bonding the zirconium barrier layer exterior circumferential surface to the substrate interior circumferential surface;  (b) bonding the inner liner outer circumferential surface to the zirconium barrier layer inner circumferential surface; and  (c) conducting a diffusion anneal after steps (a) and (b) at a time and temperature sufficient to cause the alloying elements from the inner liner to diffuse into the barrier layer to form a diffusion layer containing a concentration of alloying elements that decreases from the interior circumferential surface of the barrier layer to a location interior to the barrier layer where there is substantially no alloying elements, wherein the alloying elements in the diffusion layer impart corrosion resistance to the barrier layer.  (a) bonding the zirconium barrier layer exterior circumferential surface to the substrate interior circumferential surface;  (b) bonding the inner liner outer circumferential surface to the zirconium barrier layer inner circumferential surface; and  (c) conducting a diffusion anneal after steps (a) and (b) at a time and temperature sufficient to cause the alloying elements from the inner liner to diffuse into the barrier layer to form a diffusion layer containing a concentration of alloying elements that decreases from the interior circumferential surface of the barrier layer to a location interior to the barrier layer where there is substantially no alloying elements, wherein the alloying elements in the diffusion layer impart corrosion resistance to the barrier layer.  (a) bonding the zirconium barrier layer exterior circumferential surface to the substrate interior circumferential surface and bonding the inner liner outer circumferential surface to the zirconium barrier layer inner circumferential surface to form a tubeshell;  (b) conducting a diffusion anneal at a time and temperature sufficient to cause the alloying elements from the inner liner to diffuse into the barrier layer to form a diffusion layer containing a concentration of alloying elements that decreases from the interior circumferential surface of the barrier layer to a location interior to the barrier layer where there is substantially no alloying elements;  (c) performing two or more cold work steps, each followed by a stress relief or recrystallization anneal; and  (d) heating at most about the outer 33% of the outer substrate into the alpha plus beta or beta phase and then cooling to produce a distribution of fine precipitates in the outer region of the substrate, wherein the alloying elements in the diffusion layer impart corrosion resistance to the barrier layer. 2. The method of claim 1 wherein the step of conducting a diffusion anneal is performed at a temperature and a time of between about 650.degree. and 1000.degree. C. for between about 1 minute and 20 hours. 3. The method of claim 1 wherein the step of conducting a diffusion anneal is performed after formation of a tubeshell. 4. The method of claim 3 wherein the step of conducting a diffusion anneal is performed at a temperature of between about 650.degree. and 825.degree. C. for between about 4-20 hours. 5. The method of claim 1 wherein the step of conducting a diffusion anneal is performed after a final pass cold work step. 6. The method of claim 5 wherein the step of conducting a diffusion anneal is performed at a temperature of between about 650.degree. and 825.degree. C. for between about 5 minutes and 10 hours. 7. The method of claim 1 wherein steps (a) and (b) are conducted as a single step. 8. The method of claim 1 further comprising a step of removing the inner liner by a surface conditioning process. 9. A cladding tube having an outer substrate, an intermediate zirconium barrier layer, and a zirconium-based inner liner having alloying elements, the substrate, barrier layer, and inner liner each having interior and exterior circumferential surfaces, the cladding tube being made by a process comprising the following steps: 10. The cladding tube of claim 1 wherein the step of conducting a diffusion anneal is performed at a temperature and a time of between about 650.degree. and 1000.degree. C. for between about 5 minutes and 20 hours. 11. The cladding tube of claim 1 wherein the step of conducting a diffusion anneal is performed after formation of a tubeshell. 12. The cladding tube of claim 1 wherein the step of conducting a diffusion anneal is performed after a final pass cold work step. 13. A method of making a cladding tube having an outer substrate, an intermediate zirconium barrier layer, and an inner liner having alloying elements, the substrate, barrier layer, and inner liner each having interior and exterior circumferential surfaces, the method comprising the following steps: 14. The method of claim 13 wherein the step of conducting a diffusion anneal is performed at a temperature and a time of between about between about 650.degree. and 825.degree. C. for between about 4 hours and 20 hours. 15. The method of claim 14 wherein the step of conducting a diffusion anneal is performed at a temperature and a time of between about between about 800.degree. and 825.degree. C. for between about 4 hours and 6 hours. 16. The method of claim 13 further comprising a step of removing the inner liner by a surface conditioning process. 17. The method of claim 16 wherein the surface conditioning process is a chemical etch.