Turbine assembly, hydrokinetic torque converter, and methods for making the same

What is claimed is: 1. A method of making a turbine assembly having a rotational axis for a hydrokinetic torque converter, the method comprising: providing a first turbine component comprising a polymeric first turbine shell element and first turbine blades connected to the first turbine shell element; providing a second turbine component comprising a second turbine shell element and second turbine blades connected to the second turbine shell element, the first turbine blades and the second turbine blades being arranged to face toward the same axial direction; and connecting the first turbine shell element to the second turbine shell element to collectively provide a turbine shell of the turbine assembly and fixedly secure the first and second turbine components to one another in a coaxial relationship about the rotational axis, the connecting comprising welding, adhesive bonding, or a combination comprising welding and adhesive bonding of the first turbine shell element to the second turbine shell element, wherein the second turbine component has an outer radius that is larger than an outer radius of the first turbine component, and wherein each of the second turbine blades has an inner radius that is not smaller than an outer radius of each of the first turbine blades. 2. The method of claim 1 , wherein the first turbine blades are polymeric and integrally formed with the first turbine shell element. 3. The method of claim 1 , wherein the second turbine blades and the second turbine shell element are polymeric and integrally formed with one another. 4. The method of claim 1 , wherein the second turbine blades and the second turbine shell element are metallic. 5. The method of claim 1 , wherein the first turbine shell element and the second turbine shell element have variable thickness portions, and wherein the connecting comprises positioning the variable thickness portions in radially overlapping relationship with one another. 6. The method of claim 1 , wherein the second turbine shell element is positioned farther radially outward than the first turbine shell element and comprises recesses, wherein the first turbine shell element comprises protuberances, and wherein the connecting comprises positioning the protuberances in the recesses and reshaping the protuberances by welding into tabs that are solid-state welded to the recesses. 7. The method of claim 6 , wherein the recesses are circumferentially spaced about the second turbine shell element and the protuberances are circumferentially spaced about the first turbine shell element in corresponding positions to the recesses. 8. The method of claim 6 , wherein the recesses and the protuberances are provided at substantially semi-toroidal radially outer portions of the second turbine shell element and the first turbine shell element, respectively. 9. The method of claim 6 , wherein the recesses and the protuberances are provided at planar portions of the second turbine shell element and the first turbine shell element, respectively. 10. The method of claim 1 , wherein the connecting comprises welding the first turbine shell element directly to the second turbine shell element. 11. The method of claim 1 , wherein the connecting comprises sonically welding the first turbine shell element directly to the second turbine shell element. 12. The method of claim 1 , further comprising forming the first turbine component separately from the second turbine component. 13. The method of claim 1 , wherein the first turbine shell element and the second turbine shell element are connected to one another without mechanical fasteners. 14. A turbine assembly having a rotational axis for a hydrokinetic torque converter, the turbine assembly comprising: a first turbine component comprising a polymeric first turbine shell element and first turbine blades connected to the first turbine shell element; and a second turbine component comprising a second turbine shell element and second turbine blades connected to the second turbine shell element, the first turbine blades and the second turbine blades being arranged to face toward the same axial direction, wherein the second turbine component has an outer radius that is larger than an outer radius of the first turbine component, and wherein each of the second turbine blades has an inner radius that is not smaller than an outer radius of each of the first turbine blades, wherein the first turbine shell element is fixedly secured by a connection to the second turbine shell element in a coaxial relationship about the rotational axis so that the first and second turbine shell elements collectively provide a turbine shell of the turbine assembly, wherein the connection comprises a weld, an adhesive bond, or a combination comprising a weld and an adhesive bond. 15. The turbine assembly of claim 14 , wherein the first turbine shell element and the second turbine shell element are connected to one another without mechanical fasteners. 16. A method of making a hydrokinetic torque converter, the method comprising: providing a first turbine component comprising a polymeric first turbine shell element and first turbine blades connected to the first turbine shell element; providing a second turbine component comprising a second turbine shell element and second turbine blades connected to the second turbine shell element, the first turbine blades and the second turbine blades being arranged to face toward the same axial direction; connecting the first turbine shell element to the second turbine shell element to fixedly secure the first and second turbine components to one another in a coaxial relationship about the rotational axis so that the first and second turbine shell elements collectively provide a turbine shell of a turbine assembly, the connecting comprising welding, adhesive bonding, or a combination comprising welding and adhesive bonding of the first turbine shell element to the second turbine shell element; operatively securing the turbine assembly to an impeller assembly comprising an impeller shell whereby the turbine assembly is coaxially aligned with and hydro-dynamically drivable by the impeller assembly; operatively connecting the turbine assembly to a turbine hub; operatively connecting a torsional vibration damper to the turbine hub; and operatively connecting the torsional vibration damper to a lockup clutch that is movable into an out of locking engagement with a casing of the hydrokinetic torque converter, the casing being non-rotatable relative to the impeller shell, wherein the second turbine component has an outer radius that is larger than an outer radius of the first turbine component, and wherein each of the second turbine blades has an inner radius that is not smaller than an outer radius of each of the first turbine blades. 17. A hydrokinetic torque converter having a rotational axis, the hydrokinetic torque converter comprising: the turbine assembly made by the method of claim 1 ; an impeller assembly operatively connected to the turbine assembly, the impeller assembly comprising an impeller shell, wherein the turbine assembly is coaxially aligned with and hydro-dynamically drivable by the impeller assembly; a turbine hub operatively connected to the turbine assembly; a torsional vibration damper operatively connected to the turbine hub; and a locking clutch operatively connected to the torsional vibration damper and movable into an out of locking engagement with a casing of the hydrokinetic torque converter, the casing being non-rotatable relative to the impeller