Apparatuses and methods for applying viscous material to a fastener

What is claimed is: 1. A daubing device, comprising: a housing comprising a first internal face and a second internal face, with the second internal face separated from the first internal face by a longitudinal distance L; a dispenser, configured to contain a viscous material and disposed between the first internal face and the second internal face of the housing, the dispenser comprising a dispenser bellows that comprises a flexible wall; and a pressure-application device disposed between the dispenser and the second internal face of the housing and configured to apply pressure on the dispenser bellows to deform the flexible wall and expel the viscous material from the dispenser. 2. The daubing device of claim 1 , wherein: when the dispenser is in a filled state, the pressure-application device is in a collapsed state; when the dispenser is in an empty state, the pressure-application device is in a distended state; in the filled state, the dispenser has a longitudinal dimension D max , in the empty state, the dispenser has a longitudinal dimension D min , in the distended state, the pressure-application device has a longitudinal dimension P max ; in the collapsed state, the pressure-application device has a longitudinal dimension P min ; the longitudinal dimension D max is greater than the longitudinal dimension D min and the longitudinal dimension P max is greater than the longitudinal dimension P min ; and a sum of the longitudinal dimension P max and the longitudinal dimension D min equals the longitudinal distance L between the first internal face and the second internal face. 3. The daubing device of claim 2 , wherein a sum of the longitudinal dimension D max and the longitudinal dimension P min equals the longitudinal distance L between the first internal face and the second internal face. 4. The daubing device of claim 2 , wherein a sum of the longitudinal dimension D max and the longitudinal dimension P min is less than the longitudinal distance L between the first internal face and the second internal face. 5. The daubing device of claim 2 , wherein the pressure-application device comprises a pressure-application bellows linearly expandable from the longitudinal dimension P min to the longitudinal dimension P max . 6. The daubing device of claim 5 , further comprising means for retracting the pressure-application bellows from the longitudinal dimension P max to the longitudinal dimension P min . 7. The daubing device of claim 5 , further comprising: an air inlet capable of being in fluid communication with an internal space within the pressure-application bellows; and an activation mechanism capable of selectively enabling fluid communication between the air inlet and the internal space within the pressure-application bellows. 8. The daubing device of claim 2 , wherein the pressure-application device comprises a balloon mechanism expandable from the longitudinal dimension P min to the longitudinal dimension P max . 9. The daubing device of claim 8 , further comprising: an air inlet capable of being in fluid communication with an internal space within the balloon mechanism; and an activation mechanism capable of selectively enabling fluid communication between the air inlet and the internal space within the balloon mechanism. 10. The daubing device of claim 8 , wherein the balloon mechanism comprises balloon walls that are flexible. 11. The daubing device of claim 10 , wherein the balloon walls are stretchable. 12. The daubing device of claim 2 , wherein the dispenser comprises a pouch. 13. The daubing device of claim 12 , wherein the pouch comprises pouch walls that are flexible and not stretchable. 14. The daubing device of claim 1 , further comprising a nozzle in fluid communication with the dispenser, wherein the nozzle has an adjustable length. 15. A daubing device, comprising: a housing comprising a first internal face and a second internal face, separated from the first internal face by a longitudinal distance L; a dispenser, configured to contain a viscous material and disposed between the first internal face and the second internal face of the housing, the dispenser comprising a flexible wall a pressure-application device disposed between the dispenser and the second internal face of the housing and configured to apply pressure on the dispenser to deform the flexible wall; and a nozzle in fluid communication with the dispenser, wherein the nozzle comprises a nozzle inlet, a nozzle bellows, and a nozzle outlet configured to expel the viscous material from the dispenser. 16. The daubing device of claim 15 , further comprising means for expanding the nozzle bellows from a compressed configuration to a distended configuration. 17. The daubing device of claim 15 , further comprising a biasing tube attached to the housing, wherein the nozzle is inside the biasing tube and is movable relative to the biasing tube. 18. A daubing device, comprising: a housing comprising a first internal face and a second internal face, with the second internal face separated from the first internal face by a longitudinal distance L; a dispenser, configured to contain a viscous material and disposed between the first internal face and the second internal face of the housing, the dispenser comprising a flexible wall; a pressure-application device disposed between the dispenser and the second internal face of the housing and configured to apply pressure on the dispenser to deform the flexible wall; a nozzle in fluid communication with the dispenser and including a nozzle inlet and a nozzle outlet configured to expel the viscous material; and an aligner attached to the nozzle outlet, wherein the aligner is sized to engage one or more outer surfaces of a fastener and comprises surfaces that diverge radially outward from the nozzle outlet. 19. A daubing device, comprising: a housing comprising a first internal face and a second internal face, with the second internal face separated from the first internal face by a longitudinal distance L; a dispenser, configured to contain a viscous material and disposed between the first internal face and the second internal face of the housing, the dispenser comprising a flexible wall; a pressure-application device disposed between the dispenser and the second internal face of the housing and configured to apply pressure on the dispenser to deform the flexible wall; a nozzle in fluid communication with the dispenser and including a nozzle inlet and a nozzle outlet configured to expel the viscous material; an aligner attached to the nozzle outlet; and an agitator vibrationally coupled to the aligner. 20. The daubing device of claim 19 , wherein the agitator is capable of selectively transmitting ultrasonic energy to the aligner.