Grain refining with direct vibrational coupling

The invention claimed is: 1. A molten metal conveyor comprising: a receptor plate in contact with molten metal during transport of the molten metal; said receptor plate extending from an entrance where molten metal enters onto the receptor plate to an exit where molten metal exits the receptor plate; and at least one vibrational energy source which supplies vibrational energy directly to the receptor plate in contact with molten metal; wherein the at least one vibrational energy source comprises a plurality of transducers arranged in an ordered pattern on the receptor plate having a higher density of said transducers at an outlet of the receptor plate. 2. The conveyor of claim 1 , wherein said receptor plate comprises a cooling channel for passage of a cooling medium. 3. The conveyor of claim 2 , wherein said cooling medium comprises at least one of water, gas, liquid metal, liquid nitrogen, and engine oil. 4. The conveyor of claim 2 , wherein said cooling channel is within the receptor plate or said cooling channel comprises a conduit attached to the receptor plate. 5. The conveyor of claim 1 , further comprising a blower providing gas flow to cool the receptor plate. 6. The conveyor of claim 1 , further comprising an assembly which mounts said receptor plate in relationship to a casting wheel of a casting mill or to a tundish supplying molten metal to a mold. 7. The conveyor of claim 1 , wherein at least one vibrational energy source comprises at least one of an ultrasonic transducer, a magnetostrictive transducer, and a mechanically driven vibrator providing vibrational energy directly to the receptor plate in contact with molten metal. 8. The conveyor of claim 1 , wherein the vibration energy provided to said receptor plate is in a range of frequencies up to 400 kHz. 9. The conveyor of claim 1 , wherein the receptor plate comprises at least one or more of niobium, a niobium alloy, titanium, a titanium alloy, tantalum, a tantalum alloy, copper, a copper alloy, rhenium, a rhenium alloy, steel, molybdenum, a molybdenum alloy, stainless steel, a ceramic, a composite, or a metal. 10. The conveyor of claim 1 , wherein the at least one vibrational energy source comprises a piezoelectric transducer element attached to the receptor plate. 11. The conveyor of claim 10 , an ultrasonic booster coupled to the piezoelectric transducer element attached to the receptor plate. 12. The conveyor of claim 1 , wherein the at least one vibrational energy source comprises a magnetostrictive transducer element attached to the receptor plate. 13. The conveyor of claim 1 , further comprising an ultrasonic degasser inserted in a molten metal flow channel. 14. The conveyor of claim 1 , wherein the receptor plate has a thickness between 1.5 cm and 2 cm. 15. The conveyor of claim 1 , wherein the receptor plate is disposed above a casting wheel and provides the molten metal to a trough in the casting wheel. 16. The conveyor of claim 1 , wherein the receptor plate comprises a lateral width between 2.5 cm and 300 cm. 17. A casting mill comprising: a casting mold configured to cool molten metal, and the conveyor of claim 1 .