Bearing-less torque converter

We claim: 1. A torque converter, comprising: an axis of rotation; a cover arranged to receive torque from an engine; an impeller with at least one first blade and an impeller shell non-rotatably connected to the cover and including a first portion radially outward from the at least one first blade; a turbine with at least one second blade and a turbine shell including a second portion radially outward from the at least one second blade; a turbine clutch including the first and second portions; and, a metallic stator formed of only a single piece of material and including: at least one third blade; and, a body portion including: a radially outermost end to which the at least one third blade is non-rotatably connected; a radially innermost end; and, a first protrusion extending from the body portion in a first axial direction toward the impeller shell and including: a first radially extending surface; a first radially outer circumference and a first radially inner circumference bounding the first radially extending surface; a first groove in the first radially extending surface:  including a first end open to the outer circumference; and,  extending radially inward and in a circumferential direction; a second groove in the first radially extending surface:  including a second end open to the inner circumference; and,  extending radially inward and in a circumferential direction, wherein: in a drive mode for the torque converter: the first portion is rotatable with respect to the second portion; the cover is arranged to transmit torque to the impeller shell; the first radially extending surface forms a segment of the body portion closest, in the first axial direction, to the impeller shell; and, the torque converter is free of a first component: axially disposed between the stator and the impeller shell; radially disposed between the radially innermost and outermost ends of the body; and, in contact with the stator and the impeller shell. 2. The torque converter of claim 1 , wherein in the drive mode for the torque converter, at least a portion of the first radially disposed surface: is in contact with the impeller shell; or, is separated from the impeller shell by a layer of a fluid in contact with the first radially disposed surface and the impeller shell. 3. The torque converter of claim 1 , wherein in the drive mode for the torque converter: a space is formed between the first radially disposed surface and the impeller shell; the first and second grooves are arranged to be filled with a fluid; and, at least a portion of the space is arranged to be filled with a film of the fluid. 4. The torque converter of claim 3 , wherein in the drive mode: the impeller shell is arranged to rotate in the circumferential direction to flow the fluid: from the first end through the first groove; and, from the second end through the second groove; and, the fluid is arranged to displace from first and second grooves onto the first radially disposed surface to form the film. 5. The torque converter of claim 3 , wherein in the drive mode for the torque converter, the first force is transmitted from the first radially disposed surface to the impeller shell through the film of fluid. 6. The torque converter of claim 1 , wherein in the drive mode for the torque converter a second force is transmitted from the second portion to the first portion in the first axial direction. 7. The torque converter of claim 1 , further comprising: an impeller hub non-rotatably connected to a radially inner portion of the impeller shell, wherein: the body of the stator includes a second protrusion extending from the body in a second axial direction, opposite the first axial direction, toward the turbine shell and including: a second radially extending surface; a second radially outer circumference and a second radially inner circumference bounding the second radially extending surface; a third groove in the second radially extending surface: including a third end open to the second outer circumference; and, extending radially inward and in the circumferential direction; a fourth groove in the second radially extending surface: including a fourth end open to the second inner circumference; and, extending radially inward and in the circumferential direction; in a coast mode for the torque converter: the impeller hub is arranged to transmit torque to the impeller shell; the first portion is rotatable with respect to the second portion; the second radially extending surface forms an entirety of a second portion of the body closest, in the second axial direction, to the turbine shell; and, the torque converter is free of a second component: axially disposed between the stator and the turbine shell; radially disposed between the radially innermost and outermost ends of the body; and, in contact with the stator and the turbine shell. 8. The torque converter of claim 7 , wherein in the coast mode for the torque converter: a space is formed between the second radially disposed surface and the turbine shell; the third and fourth grooves are arranged to be filled with a fluid; and, at least a portion of the space is arranged to be filled with a film of the fluid. 9. The torque converter of claim 1 , wherein: the first groove includes a third end opposite the first end; the second groove includes a fourth end, opposite the second end and connected to the third end. 10. The torque converter of claim 1 , wherein a line orthogonal to the axis of rotation passes through the first and second ends. 11. The torque converter of claim 1 , wherein no line orthogonal to the axis of rotation passes through both the first end and the second end. 12. The torque converter of claim 1 , wherein: the first groove includes a third end opposite the first end and terminating between the radially inner and outer circumferences; the second groove includes a fourth end opposite the second end and terminating between the radially inner and outer circumferences; and, the third end is isolated from the fourth end by a portion of the radially disposed surface. 13. The torque converter of claim 1 , wherein: the first groove includes a third end opposite the first end and terminating between the radially inner and outer circumferences; the second groove includes a fourth end opposite the second end and terminating between the radially inner and outer circumferences; and, the third end is located further in the circumferential direction than the fourth end; or, the fourth end is located further in the circumferential direction than the third end. 14. The torque converter of claim 1 , wherein: the first groove includes a third end opposite the first end and terminating between the radially inner and outer circumferences; the second groove includes a fourth end opposite the second end and terminating between the radially inner and outer circumferences; and, a line orthogonal to the axis of rotation passes through the third and fourth ends. 15. The torque converter of claim 1 , wherein: a width of the first groove, with respect to the circumferential direction, increases as the first groove extends in the circumferential direction; a width of the second groove, with respect to the circumferential direction, increases as the second groove extends in the circumferential direction. 16. The torque converter of claim 1 , wherein: the stator includes a one-way clutch located radially between the plurality of blades and the axis of rotation; and,