Piston sealing ring assemblies

1 . (canceled) 2 . A sealing ring segment comprising: a radially outward surface configured to seal against a bore of a cylinder; an axial side configured to face a piston face of a piston in which the sealing ring segment is arranged, the piston configured to translate in the cylinder; a first opening in the radially outward surface; a second opening in the axial side; and a through feature coupling the first opening to the second opening. 3 . The sealing ring segment of claim 2 , wherein the first opening comprises a pocket. 4 . The sealing ring segment of claim 2 , wherein the piston face contacts a reaction section of the cylinder. 5 . The sealing ring segment of claim 2 , wherein the through feature communicates pressure between the first opening and the second opening. 6 . The sealing ring segment of claim 2 , wherein the first opening is configured to receive pressure to reduce wear of the radially outward surface as the radially outward surface contacts the bore of the cylinder. 7 . The sealing ring segment of claim 2 , wherein the through feature provides fluid communication between first opening and the second opening. 8 . The sealing ring segment of claim 2 , wherein the first opening comprises a center arranged displaced from an axially outer surface of a second ring segment that abuts the sealing ring segment. 9 . The sealing ring segment of claim 2 , wherein the first opening extends azimuthally along the radially outward surface. 10 . The sealing ring segment of claim 2 , wherein the sealing ring segment is comprised of a self-lubricating material. 11 . The sealing ring segment of claim 2 , wherein the sealing ring segment is configured for operation without a liquid lubricant. 12 . A piston assembly comprising: a piston comprising a circumferential groove that extends around an outer surface of the piston, wherein the piston is to translate axially in a bore of a cylinder; and a sealing ring assembly comprising at least one sealing ring segment, the at least one sealing ring segment comprising: a radially outward surface configured to seal against a bore of a cylinder; an axial side configured to face a piston face of the piston comprising the circumferential groove in which the sealing ring assembly is arranged; a first opening in the radially outward surface; a second opening in the axial side; and a through feature coupling the first opening to the second opening. 13 . The piston assembly of claim 12 , wherein the first opening comprises a pocket. 14 . The piston assembly of claim 12 , wherein the piston face contacts a reaction section of the cylinder. 15 . The piston assembly of claim 12 , wherein the through feature communicates pressure between the first opening and the second opening. 16 . The piston assembly of claim 12 , wherein the first opening is configured to receive pressure to reduce wear of the radially outward surface as the radially outward surface contacts the bore of the cylinder. 17 . The piston assembly of claim 12 , wherein the through feature provides fluid communication between first opening and the second opening. 18 . The piston assembly of claim 12 , wherein the first opening comprises a center arranged displaced from an axially outer surface of a second ring segment that abuts the at least one sealing ring segment. 19 . The piston assembly of claim 12 , wherein the first opening extends azimuthally along the radially outward surface. 20 . The piston assembly of claim 12 , wherein the sealing ring segment is comprised of a self-lubricating material. 21 . The piston assembly of claim 12 , wherein the sealing ring segment is configured for operation without a liquid lubricant.