Machine for machining gear teeth and gear teeth machining method

What is claimed is: 1. A machine for machining a workpiece having a first central longitudinal axis, the machine comprising: a grinding spindle having a body, a wheel supporting an abrasive and an insulator electrically isolating the wheel from the body, the wheel being operable to remove material from the workpiece, the grinding spindle having a second central longitudinal axis about which the grinding spindle rotates and being disposed with the first and second central longitudinal axes intersecting one another so as to create a continuous gear tooth on the workpiece; and an electrochemical grinding (ECG) element electrically connected to the wheel and the workpiece, the ECG element being configured to execute ECG processing on the grinding spindle and the workpiece to soften the workpiece as the gear tooth is being created by the grinding spindle. 2. The machine according to claim 1 , wherein the abrasive comprises a super abrasive. 3. The machine according to claim 1 , wherein the abrasive comprises a super abrasive such as cubic boron nitride (CBN). 4. The machine according to claim 1 , wherein the tip is one of conical and possessed of an involute profile. 5. The machine according to claim 1 , wherein material is removed from the workpiece by the grinding spindle in one or more of an apex gap-less double-helical shape, an apex gap-less herringbone shape and a c-shape. 6. The machine according to claim 1 , wherein the ECG element is configured to: positively charge the workpiece, negatively charge the grinding spindle, and dispense electrolytic fluid toward the workpiece with the grinding spindle removing material from the workpiece. 7. The machine according to claim 1 , wherein the ECG processing on the grinding spindle and the workpiece facilitates material removal from the workpiece by the grinding spindle to a desired depth in a single pass. 8. The machine according to claim 1 , wherein the workpiece comprises a gear rotatable about the central longitudinal axis. 9. The machine according to claim 1 , wherein the spindle is selectively shiftable along one or more of a first axis and a second axis, each of the first and second axes being substantially perpendicular to the central longitudinal axis. 10. A gear comprising at least one of apex gap-less double-helical shaped teeth, apex gap-less herringbone shaped teeth and c-shaped teeth, the gear being machined by a process comprising: disposing a workpiece having a first central longitudinal axis on a chuck; disposing a grinding spindle having a second central longitudinal axis such that the first and second central longitudinal axes of corresponding ones of the workpiece and the grinding spindle intersect; executing ECG processing on the grinding spindle and the workpiece; and using the grinding spindle to remove material from the workpiece to form the at least one of the apex gap-less double-helical shaped teeth, apex gap-less herringbone shaped teeth and c-shaped teeth. 11. The gear according to claim 10 , wherein the apex gap-less double-helical shaped teeth, apex gap-less herringbone shaped teeth and c-shaped teeth comprise ground surfaces of less than 1 micro inch Ra and burr free edges. 12. The gear according to claim 10 , wherein the workpiece comprises high-hardness conductive materials. 13. The gear according to claim 10 , wherein the using of the grinding spindle comprises making a single pass of the grinding spindle to remove material from the workpiece to a desired depth. 14. The gear according to claim 10 , wherein the gear rotatable about the central longitudinal axis. 15. The gear according to claim 10 , wherein the grinding spindle is selectively shiftable along one or more of a first axis and a second axis, each of the first and second axes being substantially perpendicular to the central longitudinal axis. 16. A method of machining a gear, comprising: disposing a workpiece having a first central longitudinal axis on a chuck; disposing a grinding spindle having a second central longitudinal axis about which the grinding spindle rotates such that the first and second central longitudinal axes of corresponding ones of the workpiece and the grinding spindle intersect; executing ECG processing on the grinding spindle and the workpiece to soften an area of the workpiece; and using the grinding spindle to remove material from the area of the workpiece to create a continuous gear tooth having one of apex gap-less double-helical shaped gear teeth, apex gap-less herringbone shaped gear teeth and c-shaped gear teeth. 17. The method according to claim 16 , wherein the using of the grinding spindle comprises making a single pass of the grinding spindle to remove material from the workpiece to a desired depth. 18. The method of claim 16 , wherein using the grinding spindle to remove material from the area of the workpiece to create the continuous gear tooth includes selectively shifting the grinding spindle along one or more of a first axis and a second axis each of which are substantially perpendicular to the first central longitudinal axis.