Methods for applying viscous material to a fastener

What is claimed is: 1. A method of applying a viscous material to a fastener, the method comprising: aligning a nozzle relative to the fastener by engaging an aligner, coupled to the nozzle, with the fastener, wherein the nozzle is located inside a biasing tube, coupled to a housing, and wherein engaging the aligner with the fastener comprises: positioning the aligner over the fastener; and advancing the biasing tube toward the fastener to establish contact between the aligner and a structure, through which the fastener is secured, to partially retract the aligner into the biasing tube until a plurality of surfaces of the aligner contacts one or more outer surfaces of the fastener; deforming a flexible wall of a dispenser bellows located within the housing by expanding a pressure-application device, which is disposed within the housing and is configured to apply pressure on the flexible wall of the dispenser bellows, wherein the dispenser bellows is in fluid communication with the nozzle; and expelling the viscous material from the dispenser bellows responsive to deforming the flexible wall. 2. The method of claim 1 , wherein the pressure-application device comprises a balloon mechanism, and wherein expanding the pressure-application device within the housing comprises inflating the balloon mechanism with a fluid. 3. The method of claim 1 , wherein the pressure-application device comprises a pressure-application bellows that is linearly expandable, and wherein expanding the pressure-application device within the housing comprises inflating the pressure-application bellows with a fluid. 4. The method of claim 1 , wherein expelling the viscous material from the dispenser bellows located within the housing comprises linearly compressing the dispenser bellows by deforming the flexible wall of the dispenser bellows responsive to expanding the pressure-application device within the housing. 5. The method of claim 1 , wherein partially retracting the aligner into the biasing tube comprises compressing the nozzle lengthwise. 6. The method of claim 1 , further comprising vibrationally agitating the aligner. 7. The method of claim 6 , wherein vibrationally agitating the aligner comprises transmitting ultrasonic energy to the aligner. 8. A method of applying a viscous material to a fastener, the method comprising: aligning a nozzle of a daubing device relative to the fastener by engaging an aligner, coupled to the nozzle, with the fastener, wherein engaging the aligner with the fastener comprises: positioning the aligner over the fastener; and establishing contact between the aligner and a structure, through which the fastener is secured, to partially retract the aligner until a plurality of surfaces of the aligner contacts one or more outer surfaces of the fastener; deforming a flexible wall of a dispenser bellows, located within a housing of the daubing device and in fluid communication with the nozzle, by expanding a pressure-application device, the pressure-application device being disposed within the housing and being configured to apply pressure on the flexible wall of the dispenser bellows; and expelling the viscous material from the dispenser bellows and through the nozzle responsive to deforming the flexible wall. 9. The method of claim 8 , wherein partially retracting the aligner comprises compressing the nozzle lengthwise. 10. The method of claim 8 , further comprising vibrationally agitating the aligner. 11. The method of claim 10 , wherein vibrationally agitating the aligner comprises transmitting ultrasonic energy to the aligner. 12. The method of claim 8 , wherein the pressure-application device comprises a balloon mechanism, and wherein expanding the pressure-application device within the housing comprises inflating the balloon mechanism with a fluid. 13. The method of claim 8 , wherein the pressure-application device comprises a pressure-application bellows that is linearly expandable, and wherein expanding the pressure-application device within the housing comprises inflating the pressure-application bellows with a fluid. 14. The method of claim 8 , wherein expelling the viscous material from the dispenser bellows located within the housing comprises linearly compressing the dispenser bellows by deforming the flexible wall of the dispenser bellows responsive to expanding the pressure-application device within the housing. 15. A method of applying a viscous material to a fastener, the method comprising: aligning a nozzle of a daubing device relative to the fastener by engaging an aligner, coupled to the nozzle, with the fastener, wherein the nozzle is located inside a biasing tube coupled to a housing of the daubing device; deforming a flexible wall of a dispenser bellows, located within the housing and in fluid communication with the nozzle, by expanding a pressure-application device, the pressure-application device being disposed within the housing and being configured to apply pressure on the flexible wall of the dispenser bellows; expelling the viscous material from the dispenser bellows and through the nozzle responsive to deforming the flexible wall; and vibrationally agitating the aligner. 16. The method of claim 15 , wherein engaging the aligner with the fastener comprises: positioning the aligner over the fastener; and advancing the biasing tube toward the fastener to establish contact between the aligner and a structure through which the fastener is secured to partially retract the aligner into the biasing tube until a plurality of surfaces of the aligner contacts one or more outer surfaces of the fastener. 17. The method of claim 16 , wherein partially retracting the aligner into the biasing tube comprises compressing the nozzle lengthwise. 18. The method of claim 15 , wherein vibrationally agitating the aligner comprises transmitting ultrasonic energy to the aligner. 19. The method of claim 15 , wherein: the pressure-application device comprises a balloon mechanism, and expanding the pressure-application device within the housing comprises inflating the balloon mechanism with a fluid. 20. The method of claim 15 , wherein: the pressure-application device comprises a pressure-application bellows that is linearly expandable, and expanding the pressure-application device within the housing comprises inflating the pressure-application bellows with a fluid.