Single and twin screw extruders with ultrasound horns for decrosslinking and devulcanization

What is claimed is: 1. A process for decrosslinking crosslinked plastic or devulcanizing vulcanized rubber comprising the steps of: feeding crosslinked plastic or vulcanized rubber to a twin screw extruder having a first screw and second screw in a barrel, the first screw having a first axis and the second screw having a second axis; advancing the crosslinked plastic or vulcanized rubber, by rotation of the first screw and the second screw, to an ultrasonic treatment zone in the barrel, the ultrasonic treatment zone including: a body including: a first bore through the body, the first bore having a bore axis that is coaxial with the axis of the first screw, a second bore through the body, the second bore having a bore axis that is coaxial with the axis of the second screw, the first bore and second bore overlapping to create a twin bore, and a horn passage communicating with both the first bore and the second bore of the twin bore, a first cylindrical shaft associated with the first screw to rotate therewith, the first cylindrical shaft rotating in the first bore of the body and providing no threads such that the crosslinked plastic or vulcanized rubber is not advanced by rotation of the first cylindrical shaft, but rather is advanced by rotation of the first screw and second screw forcing the crosslinked plastic or vulcanized rubber into the ultrasonic treatment zone, a second cylindrical shaft associated with the second screw to rotate therewith, the second cylindrical shaft rotating in the second bore of the body and providing no threads such that the crosslinked plastic or vulcanized rubber is not advanced by rotation of the second cylindrical shaft, but rather is advanced by rotation of the first screw and second screw forcing the crosslinked plastic or vulcanized rubber into the ultrasonic treatment zone, the first cylindrical shaft and second cylindrical shaft contacting one another, an ultrasonic horn extending into said horn passage, the ultrasonic horn being aligned over both the first shaft and second shaft and having a distal end spaced from the first shaft and the second shaft, the distal end being shaped complementary to the first shaft and the second cylindrical shaft to define a portion of a double-arcuate ultrasonic treatment flow path; advancing the crosslinked plastic or vulcanized rubber through the double-arcuate ultrasonic treatment flow path; and ultrasonically treating the crosslinked plastic or vulcanized rubber at the double-arcuate ultrasonic treatment flow path by ultrasonic waves generated by the ultrasonic horn. 2. The process of claim 1 , wherein the first bore and the second bore in the body are devoid of channels. 3. The process of claim 1 , wherein the distal end of the ultrasonic horn is rectangular in cross section such that the volume of crosslinked plastic or vulcanized rubber advanced through the double-arcuate ultrasonic treatment flow path in said step of advancing the crosslinked plastic or vulcanized rubber through the double-arcuate ultrasonic treatment flow path experiences a more uniform ultrasonic treatment time distribution. 4. The process of claim 1 , wherein the ultrasonic treatment zone further comprises one or more stationary inserts extending partially around the first shaft within the first bore and the second shaft within the second bore of the body, the double-arcuate ultrasonic treatment flow path being defined between the first shaft, the second shaft, at least one of the one or more stationary inserts, the distal end of the ultrasonic horn and the horn passage. 5. The process of claim 1 , wherein the frequency of the ultrasonic waves is from 15 kHz to 1000 kHz. 6. The process of claim 5 , wherein the amplitude of the ultrasonic waves is from 2 microns to 100 microns. 7. The process of claim 6 , wherein the residence time of the crosslinked plastic or vulcanized rubber in the arcuate ultrasonic treatment flow path is less than 5 seconds. 8. A twin screw extruder having a first screw and second screw in a barrel, the first screw having a first axis and the second screw having a second axis, the twin screw extruder characterized in that it includes an ultrasonic treatment zone in the barrel, the ultrasonic treatment zone comprising: a body including a first bore through the body, the first bore having a bore axis that is coaxial with the axis of the first screw, a second bore through the body, the second bore having a bore axis that is coaxial with the axis of the second screw, the first bore and second bore overlapping to create a twin bore, and a horn passage communicating with both the first bore and the second bore of the twin bore; a first cylindrical shaft associated with the first screw to rotate therewith, the first cylindrical shaft rotating in the first bore of the body and providing no threads; a second cylindrical shaft associated with the second screw to rotate therewith, the second cylindrical shaft rotating in the second bore of the body and providing no threads, the first cylindrical shaft and second cylindrical shaft contacting one another; and an ultrasonic horn extending into said horn passage, the ultrasonic horn being aligned over both the first shaft and second shaft and having a distal end spaced from the first shaft and the second shaft, the distal end being shaped complementary to the first cylindrical shaft and the second cylindrical shaft to define a portion of a double-arcuate ultrasonic treatment flow path.