Methods for joining polymeric composites using a hybrid friction/ultrasound technique for achieving desired weld characteristics

What is claimed: 1. A method, for efficiently joining together multiple workpieces, of a workpiece arrangement, while inhibiting incursion of weld material into one or more unwanted areas of the arrangement, comprising: positioning a hybrid shaping-and-energizing system comprising a shaping tool and ultrasonic horn proximate a workpiece, the shaping tool being movably connected to the ultrasonic horn; forming, using the shaping tool, at least one recess in the proximate workpiece of the workpiece arrangement; and applying, using the ultrasonic horn, weld energy to the proximate workpiece of the workpiece arrangement; wherein the recess is formed, and weld energy applied, so that molten workpiece material becomes disposed within the recess, thereby inhibiting formation of weld material in the unwanted areas. 2. The method of claim 1 , wherein: forming the recess includes rotating the shaping tool while the shaping tool is in contact with the proximate workpiece to generate sufficient friction to create the recess, being an annular recess; and the shaping tool is positioned around the ultrasonic horn. 3. The method of claim 1 , wherein automated machinery controls one or more functions of the method. 4. The method of claim 1 , wherein: a first workpiece and a second workpiece of the workpiece arrangement have dissimilar material; and at least one of the workpieces includes polymer. 5. The method of claim 1 , wherein the shaping tool is spaced from ultrasonic horn, defining an intervening gap, when the ultrasonic horn is positioned for applying ultrasonic vibrations, to inhibit transmission of vibrations from the ultrasonic horn to the shaping tool. 6. The method of claim 1 , wherein: in forming the recess using the shaping tool, material of the proximate workpiece to heat up; and the heating of the proximate workpiece facilitates welding in applying the weld energy to the proximate workpiece. 7. The method of claim 1 , wherein: in forming the recess using the shaping tool, material of the proximate workpiece to heat and partially melt the proximate workpiece; the applying is performed in a welding operation; and the heating and melting of the proximate workpiece facilitates ultrasonic welding operation. 8. The method of claim 1 , wherein the tool and applicator are configured, arranged, and controlled according to a manner selected from a group consisting of: being configured, arranged, and controlled so that operation of the ultrasonic horn to apply weld energy is commenced after commencement of operation of the shaping tool to generate heat in the workpiece by friction; being configured, arranged, and controlled so that operation of the ultrasonic horn to apply weld energy is commenced before commencement of operation of the shaping tool to generate heat in the workpiece by friction; being configured, arranged, and controlled so that operation of the ultrasonic horn to apply weld energy is commenced after conclusion of operation of the shaping tool to generate heat in the workpiece by friction; and being configured, arranged, and controlled so that operation of the shaping tool to generate heat in the workpiece by friction is commenced after conclusion of operation of the ultrasonic horn to apply weld energy. 9. The method of claim 1 , wherein: forming the recess generates heat in the proximate workpiece, melting workpiece material; and applying the weld energy using the ultrasonic horn is commenced according to a timing selected from a group of timings consisting of: after commencement of forming the recess and melting the workpiece by friction; before commencement of forming the recess and melting the workpiece by friction; after conclusion of forming the recess and melting the workpiece by friction; and after conclusion of applying the weld energy using the ultrasonic horn. 10. A method, for efficiently joining together multiple workpieces, of a workpiece arrangement, while inhibiting incursion of weld material into one or more unwanted areas of the arrangement, comprising: positioning a hybrid shaping-and-energizing system comprising a shaping tool and ultrasonic horn proximate a workpiece, the shaping tool being movably connected to the ultrasonic horn; forming, using the shaping tool, at least one recess in a proximate workpiece of the workpieces to be joined; and applying, using the ultrasonic horn, weld energy to the proximate workpiece, wherein the weld energy causes at least a portion of the proximate workpiece to form molten material that is disposed within the at least one recess, thereby inhibiting formation of weld material in the unwanted areas. 11. The method of claim 10 , wherein: forming the recess includes rotating the shaping tool while the shaping tool is in contact with the proximate workpiece to generate sufficient friction to create the recess, being an annular recess; and the shaping tool is positioned around the ultrasonic horn. 12. The method of claim 10 , wherein automated machinery controls one or more functions of the method. 13. The method of claim 10 , wherein: a first workpiece and a second workpiece of the workpiece arrangement have dissimilar material; and at least one of the workpieces includes polymer. 14. The method of claim 10 , wherein the shaping tool is spaced from ultrasonic horn, defining an intervening gap, when the ultrasonic horn is positioned for applying ultrasonic vibrations, to inhibit transmission of vibrations from the ultrasonic horn to the shaping tool. 15. The method of claim 10 , wherein: in forming the recess using the shaping tool, material of the proximate workpiece to heat up; and the heating of the proximate workpiece facilitates welding in applying the weld energy to the proximate workpiece. 16. The method of claim 10 , wherein: in forming the recess using the shaping tool, material of the proximate workpiece to heat and partially melt the proximate workpiece; the applying is performed in a welding operation; and the heating and melting of the proximate workpiece facilitates ultrasonic welding operation. 17. The method of claim 10 , wherein the tool and applicator are configured, arranged, and controlled according to a manner selected from a group consisting of: being configured, arranged, and controlled so that operation of the ultrasonic horn to apply weld energy is commenced after commencement of operation of the shaping tool to generate heat in the workpiece by friction; being configured, arranged, and controlled so that operation of the ultrasonic horn to apply weld energy is commenced before commencement of operation of the shaping tool to generate heat in the workpiece by friction; being configured, arranged, and controlled so that operation of the ultrasonic horn to apply weld energy is commenced after conclusion of operation of the shaping tool to generate heat in the workpiece by friction; and being configured, arranged, and controlled so that operation of the shaping tool to generate heat in the workpiece by friction is commenced after conclusion of operation of the ultrasonic horn to apply weld energy. 18. The method of claim 10 , wherein: forming the recess generates heat in the proximate workpiece, melting workpiece material; and applying the weld energy using the ultrasonic horn is commenced according to a timing selected from a group of timings consisting of: after commencement of forming the recess and melting the workpiece by friction; before commencement of forming the recess and melting the workpiece by fric