Torque converter and hydrokinetic torque coupling device having turbine-piston lockup clutch with lockup resistance member

What is claimed is: 1. A hydrodynamic torque converter comprising: an impeller having a rotational axis and comprising an impeller shell having a first engagement surface; a turbine-piston coaxially aligned with and hydrodynamically drivable by the impeller, the turbine-piston comprising a turbine-piston shell comprising a turbine-piston flange having a second engagement surface facing the first engagement surface of the impeller shell, the turbine-piston being movable axially toward and away from the first engagement surface to position the torque converter respectively into and out of a lockup mode in which the turbine-piston is mechanically locked to so as to be non-rotatable relative to the impeller shell; an annular lockup resistance member comprising an annular elastomeric sandwich washer coaxially aligned with the rotational axis and disposed between the impeller shell and the turbine-piston shell so as to resist axial movement of the turbine-piston toward the first engagement surface and into the lockup mode, the annular elastomeric sandwich washer comprising axially opposite first and second outer members; and an elastomeric inner member sandwiched between the first outer member and the second outer member and integrally attached to both the first and second outer members. 2. The torque converter of claim 1 , wherein the elastomeric inner member is attached directly to both the first outer member and the second outer member. 3. The torque converter of claim 2 , wherein the first outer member and the second outer member are axially spaced from each other and axially moveable relative to each other due to the elasticity of the elastomeric inner member disposed therebetween. 4. The torque converter of claim 3 , wherein the elastomeric inner member is generally circular and has at least one annular raised section axially extending between the first outer and the second outer members. 5. The torque converter of claim 4 , wherein the second outer member has at least one annular raised section axially extending toward the first outer member; and wherein the at least one annular raised section of the elastomeric inner member is disposed radially adjacent to the at least one annular raised section of the second outer member. 6. The torque converter of claim 3 , wherein the elastomeric inner member includes two elastomeric rings coaxial to each other and radially spaced from each other. 7. The torque converter of claim 1 , further comprising a stator situated between the impeller and the turbine-piston; wherein the elastomeric sandwich washer is situated between the stator and the turbine-piston shell so that the first outer member is adjacent to the turbine-piston shell of the turbine-piston and the second outer member is adjacent to the stator. 8. The torque converter of claim 7 , wherein the elastomeric sandwich washer is rotatable relative to at least one of the turbine-piston and the stator. 9. The torque converter of claim 8 , wherein the elastomeric sandwich washer has a planar turbine-side exterior surface that circumferentially slidingly engages and is rotatable relative to the turbine-piston when the torque converter is out of the lockup mode. 10. The torque converter of claim 7 , wherein the elastomeric sandwich washer has a planar stator-side exterior that circumferentially slidingly engages and is rotatable relative to the stator when the torque converter is out of the lockup mode. 11. The torque converter of claim 1 , further comprising a friction lining secured to the first engagement surface of the impeller shell or the second engagement surface of the turbine-piston flange. 12. A hydrokinetic torque coupling device for coupling together a driving shaft and a driven shaft, the hydrokinetic torque coupling device being rotatable about a rotational axis and comprising: a casing comprising an impeller shell and a casing shell interconnected to and non-rotatable relative to the impeller shell, the casing being rotatable about the rotational axis and having a first engagement surface; and a torque converter coaxially aligned with and rotatable about the rotational axis, the torque converter comprising: an impeller comprising the impeller shell; a turbine-piston hydrodynamically drivable by the impeller and comprising a turbine-piston shell, the turbine-piston shell comprising a turbine-piston flange having a second engagement surface facing the first engagement surface of the casing, the turbine-piston being movable axially toward and away from the first engagement surface to position the hydrokinetic torque coupling device respectively into and out of a lockup mode in which the turbine-piston is mechanically locked to so as to be non-rotatable relative to the casing; and an annular lockup resistance member comprising an annular elastomeric sandwich washer coaxially aligned with the rotational axis and disposed between the impeller shell and the turbine-piston shell so as to resist axial movement of the turbine-piston toward the first engagement surface and into the lockup mode, the annular elastomeric sandwich washer comprising axially opposite first and second outer members; and an elastomeric inner member sandwiched between the first outer member and the second outer member and integrally attached to both the first and second outer members. 13. The hydrokinetic torque coupling device of claim 12 , further comprising a stator situated between the impeller and the turbine-piston; wherein the elastomeric sandwich washer is situated between the stator and the turbine-piston shell so that the first outer member is adjacent to the turbine-piston shell of the turbine-piston and the second outer member is adjacent to the stator. 14. The hydrokinetic torque coupling device of claim 13 , further comprising: an output hub; and a torsional vibration damper interconnecting the turbine-piston and the output hub. 15. The hydrokinetic torque coupling device of claim 14 , further comprising a drive member non-movably connected to the turbine-piston shell and connecting the turbine-piston shell to the torsional vibration damper, the torsional vibration damper further comprising a driven member operatively coupled to the output hub, and wherein the drive member is axially movable relative to the driven member of the torsional vibration damper. 16. The hydrokinetic torque coupling device of claim 14 , further comprising a drive member interconnecting the turbine-piston shell to the torsional vibration damper, wherein the torsional vibration damper comprises an intermediate member, a first set of circumferentially extending elastic damping members drivingly coupling the drive member to the intermediate member, a driven member connected to and non-rotatable relative to the output hub, a second set of circumferentially extending elastic damping members drivingly coupling the intermediate member to the driven member, and a centrifugal pendulum oscillator mounted to the intermediate member. 17. The hydrokinetic torque coupling device of claim 14 , further comprising a drive member interconnecting the turbine-piston shell to the torsional vibration damper, wherein the torsional vibration damper comprises an intermediate member, a first set of circumferentially extending elastic damping members drivingly coupling the drive member to the intermediate member, a driven member connected to and non-rotatable relative to the output hub, a second set of circumferentially extending elastic damping members drivingly coupling the intermediate member to the driven member, and a spring mass system c