Structure and method of sealing a closure assembly onto the neck finish of a plastic pressure container

The invention claimed is: 1. A plastic pressure container, comprising: a main body portion defining an interior space; a finish portion unitary with the main body portion and defining a mouth in communication with the interior space, the finish portion having an inner surface, an outer surface and an upper rim proximate the mouth, the inner surface having an inner undercut defined therein proximate the upper rim, the inner undercut having a curved shape in cross-section, and the outer surface having an outer undercut defined therein proximate the upper rim, the outer undercut having a polygonal shape in cross-section, wherein the inner undercut defines a first depth relative to an inner diameter D 2 proximate the mouth and the outer undercut defines a second depth relative to an outer diameter D 3 proximate the mouth, the second depth being different than the first depth. 2. The plastic pressure container of claim 1 , wherein the main body portion and finish portion are fabricated from a material comprising polyethylene terephthalate. 3. The plastic pressure container of claim 1 , wherein the main body portion and finish portion are fabricated from a material comprising polyethylene naphthalate and/or polyethylene furanoate. 4. The plastic pressure container of claim 1 , wherein the inner undercut extends substantially along an entire inner circumference of the inner surface of the finish portion. 5. The plastic pressure container of claim 1 , wherein the outer undercut extends substantially along an entire outer circumference of the outer surface of the finish portion. 6. The plastic pressure container of claim 1 , wherein the finish portion defines a longitudinal axis, and wherein at least one of the inner undercut and the outer undercut defines an engagement surface substantially perpendicular to the longitudinal axis. 7. The plastic pressure container of claim 1 , wherein the finish portion is configured for a closure assembly to be mounted thereon in engagement with both the inner undercut and the outer undercut. 8. The plastic pressure container of claim 1 , wherein container is configured to withstand aerosol pressurization within a range that is about 40-160 psi. 9. The plastic pressure container of claim 1 , wherein the finish portion is crystallized. 10. The plastic pressure container of claim 1 , wherein the inner undercut defines an angle “a” relative to a vertical portion “y” of the inner surface, the angle “a” being between 10° and 50°. 11. A plastic pressure container comprising: a main body portion defining an interior space; a finish portion unitary with the main body portion and defining a mouth in communication with the interior space, the finish portion having an inner surface, an outer surface and an upper rim proximate the mouth, the inner surface having an inner undercut defined therein proximate the upper rim and the outer surface having an outer undercut defined therein proximate the upper rim, wherein the inner undercut defines a first depth relative to an inner diameter D 2 proximate the mouth and the outer undercut defines a second depth relative to an outer diameter D 3 proximate the mouth, the second depth being different than the first depth; wherein the finish portion defines a longitudinal axis, and at least one of the inner undercut and the outer undercut defines an engagement surface perpendicular to the longitudinal axis, and further wherein the finish portion is configured for a closure assembly to be mounted thereon in engagement with both the inner undercut and the outer undercut. 12. The plastic pressure container of claim 11 , wherein the main body portion and finish portion are fabricated from a material comprising polyethylene terephthalate. 13. The plastic pressure container of claim 11 , wherein the main body portion and finish portion are fabricated from a material comprising polyethylene naphthalate and/or polyethylene furanoate. 14. The plastic pressure container of claim 11 , wherein the inner undercut extends substantially along an entire inner circumference of the inner surface of the finish portion. 15. The plastic pressure container of claim 11 , wherein the outer undercut extends substantially along an entire outer circumference of the outer surface of the finish portion. 16. The plastic pressure container of claim 11 , wherein the finish portion is crystallized. 17. The plastic pressure container of claim 11 , wherein the inner undercut defines an angle “a” relative to a vertical portion “y” of the inner surface, the angle “a” being between 10° and 50°. 18. The plastic pressure container of claim 11 , wherein the container is configured to withstand aerosol pressurization within a range that is about 40-160 psi.