Method to eliminate dissimilar metal welds

We claim: 1. A method of joining a nozzle to a safe end without welding, comprising the steps of: (a) providing a nozzle having a first alloy composition; (b) providing a safe end having a second alloy composition different from the nozzle; (c) connecting a containment structure to the nozzle, the containment structure having first and second spaced-apart sleeves, the first and second sleeves creating a channel therebetween, the channel having a width along its length equal to a thickness of a wall of the nozzle and safe end; (d) pouring a first powder having a third alloy composition capable of joining with the first alloy composition of the nozzle into the containment structure such that the first powder is in contact with the nozzle, wherein the first powder is a Niobium (Nb)-bearing nickel-based alloy powder; (e) pouring a second powder having a fourth alloy composition capable of joining with the third alloy composition of the first powder and the second alloy composition of the safe end such that the second powder is in contact with the first powder, wherein the second powder is a 690 alloy powder; (f) positioning a portion of the safe end in the containment structure and in contact with the second powder such that the safe end compresses the first and second powders between the nozzle and safe end; and (f) performing hot isostatic pressing (HIP) to consolidate the first and second powders and join the nozzle and safe end together. 2. The method according to claim 1 wherein the first sleeve of the containment structure is connected to an inner wall surface of a wall of the nozzle and the second sleeve of the containment structure is connected to an outer wall surface of the wall of the nozzle. 3. The method according to claim 1 , wherein the first and second powders are compressed in the channel between an end of the nozzle and an end of the safe end. 4. The method according to claim 1 , further including the step of connecting the containment structure to the safe end.