Electric Guitar Strings of Magnetic Copper Alloys

1 . A guitar string, comprising a core material encased in a magnetic copper alloy sheath, the magnetic copper alloy comprising nickel, tin, manganese, and balance copper. 2 . The guitar string of claim 1 , wherein the core material is made of steel, high carbon steel, tin plated steel, or stainless steel. 3 . The guitar string of claim 1 , wherein a ratio of a diameter of the core material to a diameter of the sheath is 3:1 or more. 4 . The guitar string of claim 1 , wherein the magnetic copper alloy contains from about 8 wt % to about 16 wt % nickel, about 5 wt % to about 9 wt % tin, and from about 1 wt % to about 21 wt % manganese. 5 . The guitar string of claim 1 , wherein the magnetic alloy has a manganese content of at least 5 wt % and is formed by: casting the alloy; and homogenizing the alloy for a time period of about 4 hours to about 16 hours at a temperature of about 1400° F. to about 1700° F. and then water quenching. 6 . The guitar string of claim 5 , wherein the alloy is further formed by a second homogenizing for a time period of about 8 hours to about 12 hours at a temperature of about 1500° F. to about 1600° F. and then water quenching. 7 . The guitar string of claim 1 , wherein the magnetic alloy has a manganese content of at least 5 wt % and is formed by: casting the alloy; and homogenizing the alloy for a time period of about 5 hours to about 7 hours at a temperature of about 1500° F. to about 1700° F. and then air cooling. 8 . The guitar string of claim 7 , wherein the alloy is formed by: subsequently solution annealing the homogenized alloy for a time period of about 1 hour to about 3 hours at a temperature of about 1400° F. to about 1600° F. and then water quenching; and aging the annealed alloy for a time period of about 2 hours to about 4 hours at a temperature of about 750° F. to about 1200° F. and then air cooling. 9 . The guitar string of claim 1 , wherein the magnetic alloy has a manganese content of at least 5 wt % and is formed by: casting the alloy; homogenizing the alloy for a first time period of about 5 hours to about 7 hours at a first temperature of about 1500° F. to about 1700° F. and then air cooling; heating the alloy for a time period of about 1 hour to about 3 hours at a temperature of about 1400° F. to about 1600° F.; hot rolling the alloy to achieve a reduction of about 65% to about 70%; solution annealing the alloy for a time period of about 4 hours to about 6 hours at a temperature of about 1400° F. to about 1600° F.; and cooling the annealed alloy by either furnace cooling or water quenching. 10 . The guitar string of claim 9 , wherein the alloy is further formed by aging the alloy for a time period of about 1 hour to about 24 hours at a temperature of about 750° F. to about 850° F. and then air cooling. 11 . The guitar string of claim 1 , wherein the magnetic alloy has a manganese content of at least 5 wt % and is formed by: casting the alloy; homogenizing the alloy for a time period of about 4 hours to about 22 hours at a temperature of about 1200° F. to about 1700° F.; heating the alloy for a time period of about 1 hour to about 3 hours at a temperature of about 1400° F. to about 1600° F. and hot rolling to achieve a reduction of about 65% to about 70%; solution annealing the alloy for a time period of about 1 hour to about 3 hours at a temperature of about 1200° F. to about 1600° F. and then water quenching. 12 . The guitar string of claim 11 , wherein the alloy is further treated by aging the alloy for a time period of about 2 hours to about 4 hours at a temperature of about 750° F. to about 1200° F. and then air cooling. 13 . The guitar string of claim 11 , wherein the alloy is further treated by cold rolling the alloy to achieve a reduction of about 20% to about 40%. 14 . The guitar string of claim 1 , wherein the magnetic alloy has a manganese content of at least 7 wt % and is formed by: casting the alloy; homogenizing the alloy for a first time period of about 5 hours to about 22 hours at a first temperature of about 1200° F. to about 1700° F. and then air cooling; heating the alloy for a time period of about 4 hours or longer at a temperature of about 1200° F. to about 1600° F.; and extruding the alloy to achieve a reduction of about 66% to about 90%. 15 . The guitar string of claim 14 , wherein the alloy is further formed by solution annealing the alloy for a time period of about 1 hour to about 3 hours at a temperature of about 1200° F. to about 1700° F. and then water quenching. 16 . The guitar string of claim 1 , wherein the alloy is formed by: casting the alloy; homogenizing the alloy for a first time period of about 5 hours to about 22 hours at a first temperature of about 1200° F. to about 1700° F. and then air cooling; heating the alloy for a time period of about 4 hours or longer at a temperature of about 1200° F. to about 1600° F.; and extruding the alloy to achieve a reduction of about 66% to about 90%; solution annealing the alloy for a time period of about 1 hour to about 3 hours at a temperature of about 1200° F. to about 1700° F. and then quenching; optionally cold working the alloy to achieve a reduction of about 20% to about 40%; and aging the alloy for a time period of about 1 hour to about 4 hours at a temperature of about 600° F. to about 1200° F., and then air cooling. 17 . The guitar string of claim 1 , wherein the magnetic copper alloy is in the form of a predominantly copper matrix containing nickel, tin, and manganese therein. 18 . A process for making a guitar string, comprising: winding a strand of a magnetic copper alloy around a core material to form a sheath; wherein the magnetic copper alloy comprises nickel, tin, manganese, and balance copper. 19 . A process for making a guitar string, comprising: coating a core material with a magnetic copper alloy to form a sheath; wherein the magnetic copper alloy comprises nickel, tin, manganese, and balance copper. 20 . An electric stringed instrument equipped with a pickup transducer, wherein the strings comprise a core material encased in a magnetic copper alloy sheath, the magnetic copper alloy comprising nickel, tin, manganese, and balance copper.