Ram blowout preventer piston rod subassembly

What is claimed is: 1. A piston rod subassembly for use in a blowout preventer operator assembly, the piston rod subassembly comprising: a piston rod having a rod threaded interface and having a rod shoulder on an outer diameter of the piston rod; a preload ring having a ring threaded interface for engaging the rod threaded interface to couple the piston rod to the preload ring, wherein a protruding end surface of the piston rod protrudes past an end face of the preload ring when the piston rod is coupled to the preload ring and the rod shoulder engages a ring shoulder of the preload ring; a piston having a pocket for receiving the preload ring; and preload ring fasteners for coupling the preload ring to the piston to form a piston rod connection between the piston rod and the piston, such that the protruding end surface of the piston rod engages an interior surface of the pocket and a preload is induced in the piston rod connection. 2. The piston rod subassembly according to claim 1 , wherein at least a portion of the end face of the preload ring is spaced apart from the interior surface of the pocket when the preload is induced in the piston rod connection. 3. The piston rod subassembly according to claim 1 , wherein the piston is formed of a steel material. 4. The piston rod subassembly according to claim 1 , wherein the piston has a tail rod, the tail rod being a threaded elongated member extending in a direction opposite from the piston rod, and wherein threads of the tail rod are oriented in an opposite direction than threads of the rod threaded interface. 5. The piston rod subassembly according to claim 1 , wherein the piston has a tail rod, the tail rod being a threaded elongated member extending in a direction opposite from the piston rod so that an end load pressure on the piston induces a torque on the piston rod connection. 6. The piston rod subassembly according to claim 5 , wherein threads of the tail rod are oriented so that the torque causes the rod shoulder to further engage the ring shoulder of the preload ring. 7. The piston subassembly according to claim 1 , wherein the piston has an integrally formed tail rod, the tail rod being a threaded elongated member extending in a direction opposite from the piston rod and being formed of a steel material. 8. The piston rod subassembly according to claim 1 , wherein the preload ring fasteners are operable to release the preload ring from the piston with a hand tool to relieve the preload in the piston rod connection. 9. A piston rod subassembly of a blowout preventer operator assembly, the piston rod subassembly comprising: a piston rod having a rod threaded interface and a rod shoulder on an outer diameter of the piston rod at a first end, and having a ram connector at a second end that is opposite of the first end; a preload ring having a ring threaded interface for engaging the rod threaded interface to couple the piston rod to the preload ring, wherein a protruding end surface of the piston rod protrudes past an end face of the preload ring when the piston rod is coupled to the preload ring and the rod shoulder engages a ring shoulder of the preload ring; a piston with a pocket for receiving the preload ring, the piston having an outer diameter seal selectively engaging an inner diameter of a piston chamber of a bonnet assembly of the blowout preventer operator assembly and being moveable within the piston chamber between an extended position and a retracted position, the piston further having a tail rod, the tail rod being a threaded elongated member extending in a direction opposite from the piston rod and threadingly engaging the bonnet assembly and inducing a rotation in the piston when an end load urges the piston towards the retracted position; and preload ring fasteners for coupling the preload ring to the piston to form a piston rod connection between the piston rod and the piston, such that the protruding end surface of the piston rod engages an interior surface of the pocket and a preload is induced in the piston rod connection. 10. The piston rod subassembly according to claim 9 , wherein threads of the tail rod are oriented in an opposite direction than threads of the rod threaded interface. 11. The piston rod subassembly according to claim 9 , wherein threads of the tail rod are oriented so the rotation in the piston causes the rod shoulder to further engage the ring shoulder of the preload ring as the piston moves to the extended position. 12. The piston rod subassembly according to claim 9 , wherein at least a portion of the end face of the preload ring is spaced apart from the interior surface of the pocket when the preload is induced in the piston rod connection. 13. The piston subassembly according to claim 9 , wherein the tail rod is an integrally formed portion of the piston and the piston is formed of a steel material. 14. A method of assembling a blowout preventer operator assembly with a piston rod subassembly, the method comprising: providing a piston rod having a rod threaded interface and having a rod shoulder on an outer diameter of the piston rod; threading the piston rod into a preload ring having a ring threaded interface for engaging the rod threaded interface to couple the piston rod to the preload ring, wherein a protruding end surface of the piston rod protrudes past an end face of the preload ring when the piston rod is coupled to the preload ring and the rod shoulder engages a ring shoulder of the preload ring; locating the preload ring in a pocket of a piston; and coupling the preload ring to the piston with preload ring fasteners to form a piston rod connection between the piston rod and the piston, such that the protruding end surface of the piston rod engages an interior surface of the pocket and a preload is induced in the piston rod connection. 15. The method according to claim 14 , wherein at least a portion of the end face of the preload ring is spaced apart from the interior surface of the pocket when the preload is induced in the piston rod connection. 16. The method according to claim 14 , wherein the piston has a tail rod, the tail rod being a threaded elongated member extending in a direction opposite from the piston rod, and wherein threads of the tail rod are oriented in an opposite direction than threads of the rod threaded interface, the method further comprising generating a torque on the piston rod connection when an end load acts on the piston. 17. The method according to claim 14 , wherein the piston has a tail rod, the tail rod being a threaded elongated member extending in a direction opposite from the piston rod, the method further comprising inducing a torque on the piston rod connection when an end load acts on the piston. 18. The method according to claim 17 , wherein threads of the tail rod are oriented so that the step of inducing the torque on the piston rod connection causes the rod shoulder to further engage the ring shoulder of the preload ring. 19. The method according to claim 14 , further comprising releasing the preload ring from the piston with a hand tool to relieve the preload in the piston rod connection. 20. The method according to claim 14 , wherein the step of coupling the preload ring to the piston with the preload ring fasteners includes deforming the preload ring to induce the preload in the piston rod connection.