Additive manufacturing of joining preforms

1 . A method of fabricating a joining preform, the method comprising: printing a self-fluxing joining alloy, the self-fluxing joining alloy containing at least one of phosphorus, boron, fluorine, chlorine, or potassium; printing a non-phosphorous joining alloy; repeating the printing a self-fluxing joining alloy step until the non-phosphorous joining alloy is substantially encapsulated by the self-fluxing joining alloy; and wherein both printing steps are performed by an additive manufacturing process. 2 . The method of claim 1 , wherein the self-fluxing joining alloy is at least one of: a BCuP alloy, a CuP alloy, a CuSnP alloy, a CuSnNiP alloy or a CuAgP alloy. 3 . The method of claim 1 , wherein the non-phosphorous joining alloy is at least one of a BAg alloy, a BNi alloy, a BAu alloy. 4 . The method of claim 1 , the printing a self-fluxing joining alloy step further comprising: printing the self-fluxing joining alloy on a part to be joined. 5 . The method of claim 1 , wherein the joining preform is formed into at least one of: a cylinder, a disc, a sheet or a washer. 6 . The method of claim 1 , wherein the printing a self-fluxing joining alloy step further comprises: printing multiple layers of the self-fluxing joining alloy, each of the layers having a different percentage of phosphorus. 7 . The method of claim 6 , the multiple layers comprised of a plurality of inner layers and a plurality of outer layers; and wherein the outer layers have a different percentage of phosphorus than the inner layers. 8 . The method of claim 6 , the multiple layers comprised of a plurality of inner layers and a plurality of outer layers; and wherein the outer layers have a different melting point than a melting point of the inner layers. 9 . A method of fabricating a joining preform, the method comprising: printing a non-phosphorous joining alloy; printing a self-fluxing joining alloy on the non-phosphorous joining alloy, the self-fluxing joining alloy containing at least one of phosphorus, boron, fluorine, chlorine, or potassium; and wherein both printing steps are performed by an additive manufacturing process. 10 . The method of claim 9 , wherein the self-fluxing joining alloy is at least one of a BCuP alloy, a CuP alloy, a CuSnP alloy, a CuSnNiP alloy or a CuAgP alloy. 11 . The method of claim 10 , wherein the non-phosphorous joining alloy is at least one of a BAg alloy, a BNi alloy, or a BAu alloy. 12 . The method of claim 10 , the printing a non-phosphorous joining alloy step further comprising: printing the non-phosphorous joining alloy on a part to be joined. 13 . The method of claim 10 , wherein the joining preform is formed into at least one of: a cylinder, a disc, a sheet or a washer. 14 . The method of claim 10 , wherein the printing a self-fluxing joining alloy step further comprises: printing multiple layers of the self-fluxing joining alloy, each of the layers having a different percentage of phosphorus. 15 . The method of claim 14 , the multiple layers comprised of a plurality of inner layers and a plurality of outer layers; and wherein the outer layers have a higher percentage of phosphorus than the inner layers. 16 . The method of claim 14 , the multiple layers comprised of a plurality of inner layers and a plurality of outer layers; and wherein the outer layers have a different melting point than a melting point of the inner layers. 17 . A method of fabricating a brazing preform, the method comprising: printing a self-fluxing braze alloy, the self-fluxing braze alloy containing phosphorus, the self-fluxing braze alloy is at least one of a BCuP alloy, a CuP alloy, a CuSnP alloy, a CuSnNiP alloy or a CuAgP alloy; printing a non-phosphorous braze alloy, the non-phosphorous braze alloy is a BAg alloy; repeating the printing a self-fluxing braze alloy step until the non-phosphorous braze alloy is substantially encapsulated by the self-fluxing braze alloy; and wherein both printing steps are performed by an additive manufacturing process, and the brazing preform is formed into at least one of a cylinder, a disc, a sheet or a washer. 18 . The method of claim 17 , the printing a self-fluxing braze alloy step further comprising: printing the self-fluxing braze alloy on a part to be brazed. 19 . The method of claim 17 , wherein the printing a self-fluxing braze alloy step further comprises: printing multiple layers of the self-fluxing braze alloy, each of the layers having a different percentage of phosphorus. 20 . The method of claim 19 , the multiple layers comprised of a plurality of inner layers and a plurality of outer layers, the outer layers having a different percentage of phosphorus than the inner layers, and the outer layers having a different melting point than the inner layers.