Hybrid workpiece joining

What is claimed is: 1. A method for joining a plurality of workpieces, comprising: providing a rotating drive tool; securing a fastener to the drive tool; wherein the drive tool further includes a stem portion and a mandrel head and the fastener includes a hollow shank, and wherein the stem portion of the drive tool extends through the hollow shank of the fastener with the mandrel head arranged at a distal end thereof; rotatably driving the drive tool such that a distal end of the fastener rotates against a surface of the plurality of workpieces, wherein the material assembly includes a first workpiece and a second workpiece, wherein the fastener, the first workpiece, and the second workpiece comprise a thermoplastic material; generating a heated material zone on the plurality of workpieces caused by friction from the rotation of the fastener against the surface of the plurality of workpieces that allows the thermoplastic material of the material assembly to fuse to the thermoplastic material of the fastener; rotatably and axially driving the distal end of the fastener through the heated material zone; and removing the drive tool from the fastener, wherein when the heated material zone cools, a portion of the heated material zone is fused to the fastener. 2. The method of claim 1 , further comprising: deforming at least a portion of the heated material zone with the mandrel head, prior to removing the drive tool from the fastener. 3. The method of claim 2 , wherein the stem portion of the drive tool further includes a fracture notch, and wherein removing the drive tool from the fastener includes fracturing the stem portion at the fracture notch. 4. The method of claim 1 , wherein the mandrel head axially collapses and radially expands the hollow shank of the fastener into engagement with a lower surface of the material assembly to thereby attach the fastener and the material assembly. 5. A hybrid joining system comprising: a rotating drive tool having a stem portion and a mandrel head; a fastener having a hollow shank, the stem portion of the drive tool extending through the hollow shank of the fastener with the mandrel head arranged at a distal end thereof, the fastener being rotatably driven by the drive tool such that a distal end of the fastener rotates against a surface of a material assembly, wherein friction caused by the rotation of the fastener against the material assembly generates a heated material zone on the material assembly, and wherein the rotating drive tool rotatably and axially drives the distal end of the fastener through the heated material zone, and wherein at least a portion of the heated material zone is deformed by the mandrel head. 6. The hybrid joining system of claim 5 , wherein the mandrel head axially collapses and radially expands the hollow shank of the fastener into engagement with a lower surface of the material assembly to thereby attach the fastener and the material assembly. 7. The hybrid joining system of claim 5 , wherein the stem portion of the drive tool includes a fracture notch that is configured to fracture in order to remove the drive tool from the fastener. 8. The hybrid joining system of claim 5 , wherein the material assembly includes a first and second workpiece and wherein the fastener is configured to join the first workpiece to the second workpiece; wherein the fastener, the first workpiece, and the second workpiece comprise a thermoplastic material; and wherein friction caused by the rotation of the fastener against the material assembly generates the heated material zone on the material assembly that allows the thermoplastic material of the workpieces to fuse to the thermoplastic material of the fastener. 9. The hybrid joining system of claim 8 , wherein the proximal end of the fastener includes a head with a shank extending therefrom, and wherein the drive tool drives the shank through the first workpiece and into the second workpiece. 10. The hybrid joining system of claim 5 , wherein at least a portion of the heated material zone on the material assembly is fused to the fastener upon cooling of the zone.