Dual wire welding or additive manufacturing contact tip and diffuser

What is claimed is: 1. A welding or additive manufacturing contact tip, comprising: an electrically-conductive body extending from a proximal end of the body to a distal end of the body, the body forming: a first bore terminating at a first exit orifice at a distal end face of the body; and a second bore terminating at a second exit orifice at the distal end face of the body; wherein the first and second exit orifices are separated from each other by a distance configured to facilitate formation of a bridge droplet between a first wire electrode delivered through the first bore and a second wire electrode delivered through the second bore, while preventing solid portions of the first wire electrode delivered through the first bore from contacting solid portions the second wire electrode delivered through the second bore, during a deposition operation in which welding current is conducted to both of the first wire electrode and the second wire electrode simultaneously through the contact tip. 2. The welding or additive manufacturing contact tip of claim 1 , wherein the first exit orifice has a diameter, and said distance is within a range of 20% to 200% of said diameter. 3. The welding or additive manufacturing contact tip of claim 1 , wherein said distance provides a spacing between the first wire electrode and the second wire electrode that is within a range of 0.25 to 2.25 times a diameter of the first and second wire electrodes, as measured between closest edges of the first and second wire electrodes. 4. The welding or additive manufacturing contact tip of claim 1 , wherein said distance is less than 3 mm. 5. The welding or additive manufacturing contact tip of claim 1 , wherein the body includes a mounting shank, and one or more entrance orifices are located on the mounting shank, and the mounting shank includes a radially-projecting tab. 6. A welding or additive manufacturing contact tip, comprising: an electrically-conductive body extending from a proximal end of the body to a distal end of the body, the body forming: a first bore terminating at a first exit orifice at a distal end face of the body; and a second bore terminating at a second exit orifice at the distal end face of the body; wherein the first and second exit orifices are separated from each other by a distance configured to facilitate formation of a bridge droplet between a first wire electrode delivered through the first bore and a second wire electrode delivered through the second bored during a deposition operation, and wherein the body includes a mounting shank, and one or more entrance orifices are located on the mounting shank, and the mounting shank includes a radially-projecting tab, and the contact tip further comprises a bias spring located between the radially-projecting tab and the distal end face of the body. 7. The welding or additive manufacturing contact tip of claim 6 , wherein the mounting shank extends from a shoulder portion of the contact tip, and the bias spring is arranged annularly around the mounting shank between the shoulder portion and the radially-projecting tab. 8. The welding or additive manufacturing contact tip of claim 7 , wherein the radially-projecting tab has a tapered edge, and the bias spring is a wave washer. 9. A welding or additive manufacturing contact tip, comprising: an electrically-conductive body extending from a proximal end of the body to a distal end of the body, the body forming: a first bore through the body that extends from a first entrance orifice at the proximal end of the body to a first exit orifice at the distal end of the body; and a second bore through the body extending from a second entrance orifice at the proximal end of the body to a second exit orifice at the distal end of the body; wherein the first and second exit orifices are separated from each other by a distance configured to facilitate formation of a bridge droplet between a first wire electrode delivered through the first bore and a second wire electrode delivered through the second bore, while preventing solid portions of the first wire electrode delivered through the first bore from contacting solid portions the second wire electrode delivered through the second bore, during a deposition operation in which welding current is conducted to both of the first wire electrode and the second wire electrode simultaneously through the contact tip, and wherein the bridge droplet couples the first wire electrode to the second wire electrode prior to contacting a molten puddle created by the deposition operation. 10. The welding or additive manufacturing contact tip of claim 9 , wherein the first exit orifice has a diameter, and said distance is within a range of 20% to 200% of said diameter. 11. The welding or additive manufacturing contact tip of claim 9 , wherein said distance provides a spacing between the first wire electrode and the second wire electrode that is within a range of 0.25 to 2.25 times a diameter of the first and second wire electrodes, as measured between closest edges of the first and second wire electrodes. 12. The welding or additive manufacturing contact tip of claim 9 , wherein said distance is less than 3 mm. 13. The welding or additive manufacturing contact tip of claim 9 , wherein an angle between a centerline of the first wire electrode and a centerline of the second wire electrode, as the first wire electrode exits the first exit orifice and the second wire electrode exits the second exit orifice, is in the range of +15 degrees to −15degrees. 14. The welding or additive manufacturing contact tip of claim 9 , wherein the body includes a mounting shank, and the first entrance orifice and the second entrance orifice are located on the mounting shank, and the mounting shank includes a radially-projecting tab. 15. A welding or additive manufacturing contact tip, comprising: an electrically-conductive body extending from a proximal end of the body to a distal end of the body, the body forming: a first bore through the body that extends from a first entrance orifice at the proximal end of the body to a first exit orifice at the distal end of the body; and a second bore through the body extending from a second entrance orifice at the proximal end of the body to a second exit orifice at the distal end of the body; wherein the first and second exit orifices are separated from each other by a distance configured to facilitate formation of a bridge droplet between a first wire electrode delivered through the first bore and a second wire electrode delivered through the second bore during a deposition operation, and wherein the bridge droplet couples the first wire electrode to the second wire electrode prior to contacting a molten puddle created by the deposition operation, and wherein the body includes a mounting shank, and the first entrance orifice and the second entrance orifice are located on the mounting shank, and the mounting shank includes a radially-projecting tab, and the contact tip further comprises a bias spring located between the radially-projecting tab and the distal end of the body. 16. The welding or additive manufacturing contact tip of claim 15 , wherein the mounting shank extends from a shoulder portion of the contact tip, and the bias spring is arranged annularly around the mounting shank between the shoulder portion and the radially-projecting tab. 17. The welding or additive manufacturing contact tip of claim 16 , wherein the radially-projecting tab has a tapered edge, and the bias spring is a wave washer. 18. A welding