Tape adhesion test system

What is claimed is: 1. A tape adhesion test system, comprising: means for securing a wire conductor that comprises a first layer of tape and a second layer of tape; means for sliding the wire conductor; means for applying a pulling force to a portion of the second layer of tape that is adhered to a portion of the first layer of tape through an adhesive bond wherein the means for sliding provides for translating the wire conductor responsive to an applied pulling force that breaks the adhesive bond; and means for measuring the pulling force when the adhesive bond breaks. 2. The tape adhesion test system of claim 1 , wherein the first layer of tape is adhered to a wire conductor. 3. The tape adhesion test system of claim 2 , further comprising means for measuring an adhesion of the first layer of tape to the wire conductor. 4. The tape adhesion test system of claim 2 , wherein the wire conductor comprises a magnet wire. 5. The tape adhesion test system of claim 2 , further comprising means for correlating the measured pulling force to electrical properties of a magnet wire. 6. The tape adhesion test system of claim 2 , further comprising means for correlating the measured pulling force to bond strength achieved by a manufacturing step for a magnet wire. 7. The tape adhesion test system of claim 6 , further comprising a computing device for measuring the pulling force and relating the pulling force to properties and manufacturing steps of a magnet wire. 8. A test fixture, comprising: chucks for securing each end of a tape-wrapped wire; a clamp for applying a pulling force to an outer layer of tape of the tape-wrapped wire; a recorder for storing a pulling force value when an adhesive bond between the outer layer of tape and an inner layer of tape separates; a hinged bracket to hold the chucks, the hinged bracket having freedom to tilt about a pivot when the pulling force is applied to the outer layer of tape of the tape-wrapped wire; and a slide coupled to the hinged bracket, the hinged bracket having freedom to translate along the slide when the pulling force is applied to the outer layer of tape of the tape-wrapped wire. 9. The test fixture of claim 8 , further comprising a hub coupled to the hinged bracket, the hinged bracket having freedom to rotate about an axis of the hub when the pulling force is applied to the outer layer of tape of the tape-wrapped wire. 10. A method, comprising: placing a sample of a tape-wrapped wire into a rotatable and translatable chuck; attaching a pull tester to an outer layer of tape adhered to an inner layer of tape of the tape-wrapped wire; increasing a pull force of the pull tester until the chuck begins to rotate and translate; measuring the pull force when the chuck begins to rotate and translate to determine an adhesive bond strength between the outer layer of tape and the inner layer of tape. 11. The method of claim 10 , further comprising quantifying the adhesive bond strength between the outer layer of tape and the inner layer of tape and quantifying the adhesive bond strength between the inner layer of tape and a metallic wire conductor of the tape-wrapped wire. 12. The method of claim 10 , further comprising improving a design of the tape-wrapped wire based on the measured pull force. 13. The method of claim 10 , further comprising improving a manufacturing process of the tape-wrapped wire based on the measured pull force. 14. The method of claim 13 , further comprising correlating the measured pull force to one or more electrical properties of the sample of the tape-wrapped wire to improve the manufacturing process. 15. The method of claim 13 , further comprising determining an oven temperature and a line speed setting for manufacture of the tape-wrapped wire based on the measured pull force. 16. The method of claim 13 , further comprising selecting a tape adhesive based on the measured pull force. 17. The method of claim 13 , further comprising changing a wrapping angle of tape being applied to the tape-wrapped wire based on the measured pull force. 18. The method of claim 13 , further comprising changing a helix spacing of the tape-wrapped wire based on the measured pull force.