Torque converter clutch system

What is claimed is: 1. A torque converter, comprising: a front cover configured to receive an input torque; an impeller having an outer shell non-rotatably connected to the front cover; a turbine fluidly coupled with the impeller; and a lock-up clutch disposed axially between the front cover and the turbine, the lock-up clutch comprising: a piston axially displaceable and including a first opening extending from a first axial side facing the front cover to a second axial side facing the turbine; a seal ring fixed to the front cover and sealed to the piston; a first fluid chamber formed at least in part by the piston and the turbine; a second fluid chamber formed at least in part by the front cover, the seal ring, and the piston; and a valve connected to the piston on the second axial side and configured to seal the first opening in response to a first pressure in the first fluid chamber exceeding a second pressure in the second fluid chamber such that fluid is prevented from passing through the first opening in the piston, wherein the front cover includes a second opening defined therein located radially outward of the seal ring and arranged such that forced cooling fluid flow passes through the lock-up clutch to the second fluid chamber via the second opening when the lock-up clutch is closed. 2. The torque converter of claim 1 , wherein the valve is configured to open in response to the second pressure exceeding the first pressure such that fluid is routed from the second fluid chamber into the first fluid chamber via the first opening in the piston. 3. The torque converter of claim 1 , wherein: the piston is non-rotatably connected to the front cover on the first axial side via a connector; and the valve is connected to the second axial side of the piston via the connector. 4. The torque converter of claim 3 , wherein the connector is a rivet. 5. The torque converter of claim 1 , wherein the seal ring includes a third opening aligned with the second opening and arranged such that the forced cooling fluid flow passes through the lock-up clutch, the second opening, the third opening, and then into the second fluid chamber when the lock-up clutch is closed. 6. The torque converter of claim 1 , wherein: the seal ring is fixed to the front cover by a weld; and the weld includes a third opening aligned with the second opening and arranged such that the forced cooling fluid flow may pass through the lock-up clutch, the third opening, the second opening, and then into the second fluid chamber. 7. The torque converter of claim 1 , further comprising: a thrust washer axially retained on the second axial side of the piston, wherein the valve is disposed axially between the piston and the thrust washer. 8. The torque converter of claim 7 , wherein the thrust washer and the valve are connected to the piston via a single connector. 9. The torque converter of claim 7 , wherein the thrust washer includes at least one slot defined in a back surface thereof that faces the piston, wherein the at least one slot is arranged to provide clearance for axial movement of the valve when in an open position. 10. A torque converter, comprising: a front cover configured to receive an input torque; an impeller having an outer shell non-rotatably connected to the front cover; a turbine fluidly coupled with the impeller; and a lock-up clutch disposed axially between the front cover and the turbine, the lock-up clutch comprising: a piston sealed to the front cover and including a first opening; a first fluid chamber formed at least in part by the piston and the turbine; a second fluid chamber formed at least in part by the front cover and the piston, wherein the first opening fluidly connects the first fluid chamber and the second fluid chamber; and a valve connected to the piston and configured to seal the first opening in response to a first pressure in the first fluid chamber exceeding that of a second pressure in the second fluid chamber, wherein cooling fluid flow is configured to pass through the lock-up clutch into the second fluid chamber via a second opening defined in the front cover when the lock-up clutch is in a closed position. 11. The torque converter of claim 10 , further comprising a seal ring disposed between the front cover and the piston, wherein the seal ring is fixed to the front cover and sealed to an outer diameter of the piston. 12. The torque converter of claim 10 , wherein, in a first mode of operation: the lock-up clutch is in an open position; the second pressure in the second fluid chamber exceeds that of the first pressure in the first fluid chamber; and the valve is open such that fluid is routed from the second fluid chamber into the first fluid chamber through the first opening. 13. The torque converter of claim 12 , wherein, in a second mode of operation: the lock-up clutch is in the closed position; the first pressure in the first fluid chamber exceeds the second pressure in the second fluid chamber; and the valve is closed such that fluid is prevented from passing through the first opening. 14. The torque converter of claim 10 , further comprising: a vibration damper including an output flange; and a thrust washer axially retained on the piston and arranged in a thrust path between the piston and the output flange. 15. A torque converter, comprising: a front cover configured to receive an input torque; an impeller having an outer shell non-rotatably connected to the front cover; a turbine fluidly coupled with the impeller; and a lock-up clutch disposed axially between the front cover and the turbine, the lock-up clutch comprising: a piston sealed to the front cover and including a first opening; a first fluid chamber formed at least in part by the piston and the turbine; a second fluid chamber formed at least in part by the front cover and the piston, wherein the first opening fluidly connects the first fluid chamber and the second fluid chamber; a valve connected to the piston and configured to be movable between an open position wherein fluid can flow from the second fluid chamber into the first fluid chamber via the first opening in the piston and a closed position wherein the first opening is sealed such that the fluid is prevented from passing through the first opening in the piston; and a thrust washer connected to the piston, wherein the valve is disposed axially between the piston and the thrust washer, the thrust washer includes at least one slot defined in a surface facing the piston, and the at least one slot is arranged to provide clearance for axial movement of the valve when in the open position. 16. The torque converter of claim 15 , wherein: the valve is configured to move into the closed position in response to a pressure in the first fluid chamber exceeding a pressure in the second fluid chamber such that fluid is prevented from passing through the first opening in the piston; and the valve is configured to move into the open position in response to the pressure in the second fluid chamber exceeding the pressure in the first fluid chamber such that fluid is prevented from passing through the first opening in the piston.