Dispenser with air mixing

The invention claimed is: 1. A nozzle assembly comprising: a mixing channel having upstream and downstream ends defining a flow direction through the mixing channel, the mixing channel comprising: a housing wall defining a flow passage, the housing wall comprising: an inlet portion disposed at the upstream end and configured to receive a first material and a second material; and a tip orifice disposed at the downstream end, the tip orifice configured to emit the plural component material from the mixing channel; a static mixer disposed within the mixing channel, the mixer configured to mix the first material and the second material into the plural component material; and an aerator projecting from outside of the mixing channel and into the flow passage, the aerator configured to flow nucleation air into the flow passage at a location downstream of a downstream end of the mixer and upstream of the tip orifice such that the nucleation air is emitted into a flow of the plural component material prior to the plural component material exiting the flow channel through the tip orifice, and the aerator disposed such that the plural component material flows around a portion of the aerator disposed in the flow passage. 2. The nozzle assembly of claim 1 , wherein the aerator comprises a nucleation air passage extending from an exterior of the housing wall into the flow passage. 3. The nozzle assembly of claim 2 , wherein the nucleation air passage extends through the housing wall. 4. The nozzle assembly of claim 2 , wherein: the housing wall comprises a tapered section extending from a point downstream of the mixer to the tip orifice; and the nucleation air passage extends through the tapered section of the housing wall. 5. The nozzle assembly of claim 2 , wherein the nucleation air passage extends through the tip orifice. 6. The nozzle assembly of claim 2 , wherein the nucleation air passage is non-linear. 7. The nozzle assembly of claim 1 , wherein the mixing channel extends along an axis and the aerator comprises an attachment housing disposed at a downstream end of the mixing channel, the attachment housing defining: an air outlet configured to flow the nucleation air to a location downstream of the tip orifice to create aerated plural component material; a flow inlet radially overlapping, with respect to the axis, with the air outlet, the flow inlet configured to accept a flow of aerated plural component material; a spray outlet downstream of the flow inlet for emitting the aerated plural component material; and an outlet passage that fluidly connects the flow inlet to the spray outlet. 8. The nozzle assembly of claim 7 , and further comprising a shroud at least partially surrounding an exterior of the mixing channel, wherein the attachment housing is attached to a downstream end of the shroud. 9. The nozzle assembly of claim 1 , wherein the aerator is configured to flow the nucleation air in an upstream direction relative to the flow of the plural component material. 10. The nozzle assembly of claim 1 , wherein: the mixing channel is configured to flow the first material, the second material, and the plural component material in a downstream direction towards the tip orifice; the aerator is configured to flow the nucleation air in an upstream direction opposite the downstream direction. 11. The nozzle assembly of claim 1 , wherein aerator comprises a housing, the housing comprising: a tapered tip at a first end of the housing; an air outlet defined in the tapered tip; an air inlet formed in a second end of the housing; and an air passage defined by the housing fluidly connecting the air inlet to the air outlet; wherein the aerator is configured to flow the nucleation air from the air inlet to the air outlet and from the air outlet into the flow of the plural component material. 12. A method of dispensing a plural component material, the method comprising: receiving a first material and a second material at an inlet of a mixing channel, the mixing channel having upstream and downstream ends defining a first flow direction through the mixing channel, and the mixing channel comprising a housing wall defining a flow passage, wherein the housing wall includes an inlet portion disposed at the upstream end and configured to receive the first material and the second material and a tip orifice disposed at the downstream end of the mixing channel and configured to emit a plural component material from the mixing channel; flowing the first material and the second material through a mixer disposed within the mixing channel to produce a plural component material; and flowing nucleation air through an aerator projecting from outside of the mixing channel and into the flow passage and into the plural component material at a location downstream of a downstream end of the mixer and upstream of the tip orifice such that the plural component material flows around a portion of the aerator disposed in the flow passage and such that the nucleation air is emitted into the flow of plural component material to form an aerated plural component material prior to the plural component material exiting the flow channel through the tip orifice. 13. The method of claim 12 , and further comprising dispensing the aerated plural component material. 14. The method of any of claim 13 , wherein dispensing the aerated plural component material comprises: flowing the aerated plural component material through an outlet passage downstream of the tip orifice; and dispensing the aerated plural component material from a spray outlet downstream of the outlet passage. 15. The method of claim 12 , wherein flowing the nucleation air into the plural component material comprises flowing the nucleation air through an air passage extending through the tip orifice. 16. The method of claim 12 , wherein flowing nucleation air through an aerator extending into the flow passage and into the plural component material includes: flowing the nucleation air flow the nucleation air into the flow passage in an upstream direction opposite a downstream direction, wherein the mixing channel is configured to flow the first material, the second material, and the plural component material in the downstream direction towards the tip orifice. 17. The method of claim 12 , wherein flowing the nucleation air through the plural component material comprises flowing the nucleation air from an air source exterior to the housing through an air passage extending through the housing wall and further flowing the nucleation air through a nucleation air orifice disposed within the flow passage. 18. The method of any of claim 12 , wherein the air passage is a non-linear channel extending from the exterior air source through the tip orifice and the nucleation air orifice is formed at a tip of the non-linear channel disposed within the flow passage. 19. A nozzle assembly comprising: a mixing channel having upstream and downstream ends defining a flow direction through the mixing channel, the mixing channel comprising: a housing wall defining a flow passage, the housing wall comprising: an inlet portion disposed at the upstream end and configured to receive a first material and a second material; and a tip orifice disposed at the downstream end, the tip orifice configured to emit a plural component material from the mixing channel; a static mixer disposed within the mixing channel, the mixer configured to mix the first material and the second material into the plural component material; and