Frac plug slips with uniform breaking mechanism and method

What is claimed is: 1. A downhole tool for sealing a well, the downhole tool comprising: a central longitudinal axis; a push ring comprising a downstream end with a first profile that is non-flat relative to the central longitudinal axis; a first slip ring located adjacent to the push ring and comprising an upstream end with a second profile that is non-flat relative to the central longitudinal axis and complementary to the first profile, such that engagement between the first profile and the second profile prevents relative rotation of the push ring and the first slip ring; a first wedge located adjacent to the first slip ring and configured to radially push the first slip ring and separate the first slip ring into individual parts; and a sealing element located adjacent to the first wedge and configured to seal the well. 2. The downhole tool of claim 1 , wherein the first slip ring has plural initiating trenches formed into a downstream end, and the first wedge has plural corresponding ridges extending radially out from a body of the first wedge. 3. The downhole tool of claim 2 , wherein each of the plural initiating trenches is engaged with a corresponding ridge of the plural ridges so that the first slip ring cannot rotate relative to the first wedge. 4. The downhole plug of claim 3 , wherein the first slip ring includes plural separation trenches that define the individual parts, and the plural separation trenches extend longitudinally along the first slip ring, from the initiation trenches. 5. The downhole plug of claim 4 , wherein each separation trench of the plural separation trenches is aligned with a corresponding ridge of the plural ridges, and the plural ridges are configured to cut through the plural separation trenches to separate the parts from each other. 6. The downhole plug of claim 1 , further comprising a second wedge located across the first wedge over the sealing element; a second slip ring located adjacent to the second wedge and comprising a downstream end with a third profile that is non-flat relative to the central longitudinal axis; and a mule shoe located adjacent to the second slip ring and comprising an upstream end with a fourth profile that is non-flat relative to the central longitudinal axis and complementary to the third profile, such that engagement between the third profile and the fourth profile prevents relative rotation of the mule shoe and the second slip ring. 7. The downhole tool of claim 6 , wherein the second slip ring has plural initiating trenches formed into an upstream end, and the second wedge has plural corresponding ridges extending radially out from a body of the second wedge. 8. The downhole tool of claim 7 , wherein each of the plural initiating trenches of the second slip ring is engaged with a corresponding ridge of the plural ridges of the second wedge so that the second slip ring cannot rotate relative to the second wedge. 9. The downhole plug of claim 8 , wherein the second slip ring includes plural separation trenches that define the additional individual parts, and the plural separation trenches extend longitudinally along the second slip ring. 10. The downhole plug of claim 9 , wherein each separation trench of the plural separation trenches of the second slip ring is aligned with a corresponding ridge of the plural ridges of the second wedge, and the plural ridges are configured to cut through the plural separation trenches to separate the additional parts from each other. 11. The downhole tool of claim 1 , wherein the first profile and the second profile are both defined by plural planes having various orientations relative to the central longitudinal axis. 12. A downhole tool for sealing a well, the downhole tool comprising: a central longitudinal axis; a sealing element located adjacent to the first wedge and configured to seal the well; a push ring; a first slip ring located adjacent to the ring and comprising plural initiating trenches formed into a downstream end; a first wedge located adjacent to the first slip ring, configured to radially push the first slip ring and separate the first slip ring into individual parts, and comprising a smooth frustoconical body from which protrudes plural ridges; wherein the initiating trenches and the ridges are configured to lock the slip ring in place relative to the first wedge. 13. The downhole plug of claim 12 , wherein the first slip ring further comprises plural separation trenches that define the individual parts, and the plural separation trenches extend longitudinally along the first slip ring. 14. The downhole plug of claim 13 , wherein each separation trench of the plural separation trenches is aligned with a corresponding ridge of the plural ridges, and the plural ridges are configured to cut through the plural separation trenches to separate the parts from each other. 15. The downhole tool of claim 12 , wherein: the push ring comprises a downstream end with a first profile that is non-flat relative to the longitudinal axis; and the first slip ring further comprises an upstream end with a second profile that is non-flat relative to the central longitudinal axis and complementary to the first profile, such that engagement between the first profile and the second profile prevents relative rotation of the push ring, and the first slip ring. 16. The downhole plug of claim 15 , further comprising: a second wedge located across the first wedge, over the sealing element; a second slip ring located adjacent to the second wedge and comprising a downstream end with a third profile that is non-flat relative to the central longitudinal axis; and a mule shoe located adjacent to the second slip ring and comprising an upstream end with a fourth profile that is non-flat relative to the central longitudinal axis and complementary to the third profile, such that engagement between the third profile and the fourth profile prevents relative rotation of the mule shoe and the second slip ring. 17. The downhole tool of claim 16 , wherein the second slip ring has plural initiating trenches formed into an upstream end, and the second wedge has plural corresponding ridges extending radially out from a body of the second wedge, and wherein each of the plural initiating trenches of the second slip ring is engaged with a corresponding ridge of the plural ridges of the second wedge so that the second slip ring cannot rotate relative to the second wedge. 18. A method for assembling a downhole tool that has slip rings with uniform breaking parts, the method comprising: providing a push ring comprising a downstream end with a first profile that is non-flat relative to a central longitudinal axis of the downhole tool; providing a first slip ring comprising an upstream end with a second profile that is non-flat relative to the central longitudinal axis of the downhole tool and complementary to the first profile; placing the first slip ring adjacent to the push ring, such that engagement of the first profile and the second profile prevents relative rotation of the push ring and the first slip ring; placing a first wedge adjacent to the first slip ring, the first wedge being configured to radially push the first slip ring and separate the first slip ring into individual parts; and placing a sealing element next to the first wedge, wherein the sealing element is configured to seal the well. 19. The method of claim 18 , further comprising: locking the first slip ring relative to the first wedge by engaging plural initiating trenches