Thread forming taps

The invention claimed is: 1. A tap for forming internal threads in a workpiece through application of a compressive force and substantially without the generation of chips, the tap defining a longitudinal axis, a first end, and a second end disposed axially away from the first end, the tap comprising: a shank disposed at the first end and adapted to engage a tool holder; and an elongated working portion disposed at the second end comprising: at least one thread disposed helically about the working portion; a plurality of longitudinally-extending linear grooves disposed about the longitudinal axis, the linear grooves intersecting the at least one helical thread; and a plurality of lobes formed by the intersection of the linear grooves with the at least one helical thread; said lobes comprising lobes that are adjacent to one another along a circumferential direction of the elongated working portion; wherein said adjacent lobes differ from one another based on at least one of: relief type and relief rate; wherein in a first of said adjacent lobes all thread portions are defined by a first relief type or relief rate; and wherein in a second of said adjacent lobes all thread portions are defined by a second relief type or relief rate different from the first relief type or relief rate. 2. The thread-forming tap of claim 1 , wherein: said adjacent lobes differ from one another based on relief type; and the relief type of each of the adjacent lobes is selected from the group consisting of: zero relief, con-eccentric relief and eccentric relief. 3. The thread-forming tap of claim 1 , wherein: said adjacent lobes differ from one another based on relief type; and said adjacent lobes define an alternating pattern, viewed along the helical direction of the least one helical thread, of lobes having con-eccentric relief and lobes having eccentric relief; at least one lobe having con-eccentric relief defining a land which has a concentric margin central thereto; and at least one lobe having eccentric relief defining an apex central thereto. 4. The thread-forming tap of claim 3 , wherein the concentric margin subtends an angle in the range of about 0.5° to about 10°. 5. The thread-forming tap of claim 3 , wherein a cross-section taken helically along the thread defines a virtual circle, and wherein each concentric margin is cocircular with the virtual circle and each apex intersects the virtual circle. 6. The thread-forming tap of claim 1 , wherein said adjacent lobes differ from one another in relief rate. 7. The thread-forming tap of claim 6 , wherein said adjacent lobes further differ from one another in relief type. 8. The thread-forming tap of claim 6 , wherein said adjacent lobes form an alternating pattern of first eccentric reliefs having a first eccentric relief rate and second eccentric reliefs having a second eccentric relief rate, the first and second relief rates being different from one another. 9. The thread-forming tap of claim 1 , wherein a cross-section taken helically along the at least one helical thread comprises an even number of lobes. 10. The thread-forming tap of claim 9 , wherein the cross-section comprises at least 4 lobes. 11. The thread-forming tap of claim 9 , wherein the cross-section comprises at least 6 lobes. 12. The thread-forming tap of claim 9 , wherein the cross-section comprises at least 8 lobes. 13. The thread-forming tap of claim 1 further comprising at least one coolant channel collinear with the longitudinal axis and terminating in at least one axial coolant hole at the second end. 14. The thread-forming tap of claim 1 further comprising at least one coolant channel collinear with the longitudinal axis and terminating in at least two radial coolant holes in at least two of the linear grooves. 15. The thread-forming tap of claim 1 , wherein the at least one helical thread defines an entry taper at the second end. 16. The thread-forming tap of claim 15 , wherein the entry taper is between 1 and 10 thread pitches long. 17. The thread forming tap of claim 15 , wherein the entry taper is between 3 and 5 thread pitches long. 18. The thread-forming tap of claim 1 , wherein the plurality of grooves are disposed generally axisymmetrically about the longitudinal axis. 19. A tap for forming internal threads in a workpiece through application of a compressive force and substantially without the generation of chips, the tap defining a longitudinal axis, a first end, and a second end disposed axially away from the first end, the tap comprising: a shank disposed at the first end and adapted to engage a tool holder; and an elongated working portion disposed at the second end comprising: at least one thread disposed helically about the working portion; and a plurality of lobes disposed on the at least one thread about the longitudinal axis; said lobes comprising lobes that are adjacent to one another along a circumferential direction of the elongated working portion; wherein in a first of said adjacent lobes all thread portions are defined by a first relief type or relief rate; and wherein in a second of said adjacent lobes all thread portions are defined by a second relief type or relief rate different from the first relief type or relief rate. 20. The thread-forming tap of claim 19 , wherein the elongated working portion further comprises at least one longitudinally-extending linear groove intersecting the at least one helical thread. 21. A thread-forming tool comprising: a tool holder configured to receive a thread-forming tap; and a tap, coupled to the tool holder, for forming internal threads in a workpiece through application of a compressive force and substantially without the generation of chips, the tap defining a longitudinal axis, a first end, and a second end disposed axially away from the first end, the tap comprising: a shank disposed at the first end and adapted to engage the tool holder; and a working portion disposed at the second end comprising: at least one thread disposed helically about the working portion; a plurality of longitudinally-extending linear grooves disposed about the longitudinal axis, the linear grooves intersecting the at least one thread; and a plurality of lobes formed by the intersection of the linear grooves with the at least one thread; said lobes comprising lobes that are adjacent to one another along a circumferential direction of the elongated working portion; wherein said adjacent lobes differ from one another based on at least one of: relief type and relief rate; wherein in a first of said adjacent lobes all thread portions are defined by a first relief type or relief rate; and wherein in a second of said adjacent lobes all thread portions are defined by a second relief type or relief rate different from the first relief type or relief rate. 22. The thread-forming tool of claim 21 , wherein: said adjacent lobes differ from one another based on relief type; and the relief type of each of the adjacent lobes is selected from the group consisting of: zero relief, con-eccentric relief and eccentric relief. 23. The thread-forming tool of claim 21 , wherein: said adjacent lobes differ from one another based on relief type; and said adjacent lobes define an alternating pattern, along the helical direction of the least one helical thread, of lobes having con-eccentric relief and lobes having eccentric relief.