Methods and systems for additive manufacturing

What is claimed is: 1. An additive manufacturing system, comprising: an electrode head comprising an array of multiple electrodes for depositing material layer by layer to form a three-dimensional (3D) attachment structure connecting a first prefabricated metallic part and a second prefabricated metallic part, wherein the array of multiple electrodes includes a first plurality of electrodes formed from a first metallic material having a first ductility and a first hardness, and a second plurality of electrodes formed from a second metallic material having a second ductility and a second hardness, wherein the first ductility is greater than the second ductility and the second hardness is greater than the first hardness; a power source configured to provide power for heating each electrode of the array of multiple electrodes; a drive roll system configured to drive each electrode of the array of multiple electrodes; and a controller operatively connected to the power source and configured to: control operations of the additive manufacturing system to form an interior portion of the attachment structure using the first plurality of electrodes, and control the operations of the additive manufacturing system to form an exterior portion of the attachment structure, surrounding the interior portion of the attachment structure, using the second plurality of electrodes, such that ductility of the interior portion of the attachment structure is greater than ductility of the exterior portion of the attachment structure. 2. The additive manufacturing system of claim 1 , wherein the electrodes of the array of multiple electrodes are consumable welding wires. 3. The additive manufacturing system of claim 1 , wherein the controller is programmed to operate the additive manufacturing system to deposit the material at areas defined by a computer aided design (CAD) model of the attachment structure. 4. The additive manufacturing system of claim 1 , wherein the first prefabricated metallic part and the second prefabricated metallic part are forged metallic parts. 5. The additive manufacturing system of claim 1 , wherein the first prefabricated metallic part and the second prefabricated metallic part are cast metallic parts. 6. The additive manufacturing system of claim 1 , wherein the controller is configured to control the operations of the additive manufacturing system to form a transition portion of the attachment structure, extending between the interior portion and the exterior portion, using both of the first plurality of electrodes and the second plurality of electrodes such that the transition portion is an alloy formed from the first metallic material and the second metallic material. 7. The additive manufacturing system of claim 6 , wherein a proportion of the first metallic material to the second metallic material decreases through the transition portion from the interior portion to the exterior portion. 8. An additive manufacturing system, comprising: an electrode head comprising an array of multiple electrodes for depositing material layer by layer to form a three-dimensional (3D) part, wherein the array of multiple electrodes includes a first plurality of electrodes formed from a first metallic material having a first ductility and a first hardness, and a second plurality of electrodes formed from a second metallic material having a second ductility and a second hardness, wherein the first ductility is greater than the second ductility and the second hardness is greater than the first hardness; a power source configured to provide power for heating each electrode of the array of multiple electrodes; a drive roll system configured to drive each electrode of the array of multiple electrodes; and a controller operatively connected to the power source and configured to: control operations of the additive manufacturing system to form an interior portion of the part using the first plurality of electrodes, and control the operations of the additive manufacturing system to form an exterior portion of the part, surrounding the interior portion of the part, using the second plurality of electrodes, such that ductility of the interior portion of the part is greater than ductility of the exterior portion of the part, wherein the controller is programmed to operate the additive manufacturing system to deposit the material at areas defined by a computer aided design (CAD) model of the part, and wherein said computer aided design (CAD) model defines an attachment structure for the part that physically corresponds to a postprocessing fixture for holding the part during postprocessing machining of the part. 9. The additive manufacturing system of claim 8 , wherein the electrodes of the array of multiple electrodes are consumable welding wires. 10. The additive manufacturing system of claim 8 , wherein the attachment structure is shaped to align the part in the postprocessing fixture based on the postprocessing machining to be performed. 11. The additive manufacturing system of claim 8 , wherein the controller is configured to control the operations of the additive manufacturing system to form a transition portion of the part, extending between the interior portion and the exterior portion, using both of the first plurality of electrodes and the second plurality of electrodes such that the transition portion is an alloy formed from the first metallic material and the second metallic material. 12. The additive manufacturing system of claim 11 , wherein a proportion of the first metallic material to the second metallic material decreases through the transition portion from the interior portion to the exterior portion.