Packaged resin products for additive manufacturing

That which is claimed is: 1 . A method of preparing a packaged resin product for use in an additive manufacturing of a three-dimensional object, comprising: (a) providing an additive manufacturing resin in liquid form; then (b) (i) solubilizing additional oxygen into said resin in addition to that amount of oxygen absorbed by the resin from the ambient atmosphere, (ii) removing nitrogen from said resin absorbed by the resin from the ambient atmosphere, or (iii) both (i) and (ii); and (c) sealing said resin with said additional oxygen solubilized therein and/or nitrogen depleted therefrom in a gas-impermeable container. 2 . The method of claim 1 , wherein said step (b) comprises both solubilizing additional oxygen into said resin in addition to that amount of oxygen absorbed by the resin from the ambient atmosphere and removing nitrogen from said resin absorbed by the resin from the ambient atmosphere. 3 . The method of claim 1 , wherein said step (b) and sealing step (c) are carried out by sealing said resin in said gas-impermeable container with a headspace in the container containing an oxygen enriched atmosphere and/or nitrogen depleted atmosphere, optionally under pressure. 4 . The method of claim 1 , wherein said step (b) is carried out by placing said resin into an gas-impermeable container while under an enriched oxygen atmosphere and/or nitrogen depleted atmosphere, optionally under pressure. 5 . The method of claim 1 , wherein said step (b) is carried out by contacting said resin to a semipermeable membrane, with the opposite side of said semipermeable membrane contacting an oxygen-enriched and/or nitrogen depleted fluid. 6 . The method of claim 1 , wherein said resin contains at least two times the amount of oxygen that would be absorbed by the resin from the ambient atmospheric air at a temperature of 20° C. and a pressure of 1 bar (that is, wherein said resin has an oxygen partial pressure enhanced from 0.21 bar to a partial pressure of oxygen of at least 0.42 bar at a temperature of 20° C.) (and up to 3 atmospheres of pure oxygen, or more). 7 . The method of claim 1 , wherein said resin contains not more than 0.75 times the amount of nitrogen that would be absorbed by the resin from the ambient atmospheric air at a temperature of 20° C. and a pressure of 1 bar (that is, wherein said resin has an nitrogen partial pressure reduced from 0.79 bar to a partial pressure of nitrogen no more than 0.59 bar at a temperature of 20° C.). 8 . The method of claim 1 , wherein said resin comprises a one-pot resin or a precursor resin for a dual cure additive manufacturing resin. 9 . A resin product useful for making three-dimensional objects by additive manufacturing, comprising; (a) a first gas-impermeable container; (b) a first additive manufacturing resin in said first container; and (c) (i) additional oxygen solubilized in said first resin in addition to that amount of oxygen otherwise absorbed by the first resin from the ambient atmosphere prior to or during packaging of the first resin in the first container; (ii) less nitrogen solubilized in said first resin as compared to that amount of nitrogen otherwise absorbed by the first resin from the ambient atmosphere prior to or during packaging of the first resin in the first container, or (iii) both (i) and (ii). 10 . The product of claim 9 , wherein said container additionally contains a headspace, said headspace containing an oxygen-enriched and/or nitrogen-depleted gas, optionally under pressure. 11 . The product of claim 9 , wherein said first resin comprises a light polymerizable additive manufacturing resin. 12 . The product of claim 9 , wherein said first resin comprises a first precursor resin for a light polymerizable additive manufacturing resin. 13 . The product of claim 12 , further comprising: (d) a second gas-impermeable container, (e) a second additive manufacturing resin in said second container; and (f)(i) additional oxygen solubilized in said second resin in addition to that amount of oxygen otherwise absorbed by the second resin from the ambient atmosphere prior to or during packaging of the second resin in the second container; (ii) less nitrogen solubilized in said second resin as compared to that amount of nitrogen otherwise absorbed by the second resin from the ambient atmosphere prior to or during packaging of the second resin in the second container, or (iii) both (i) and (ii); wherein said first and second resins when blended together produce a light polymerizable, dual cure, additive manufacturing resin. 14 . The product of claim 9 , wherein said resin contains at least two times the amount of oxygen that would be absorbed by the resin from the ambient atmospheric air at a temperature of 20° C. and a pressure of 1 bar (that is, wherein said resin has an oxygen partial pressure enhanced from 0.21 bar to a partial pressure of oxygen of at least 0.42 bar at a temperature of 20° C.) (and up to 3 atmospheres of pure oxygen, or more). 15 . The product of claim 9 , wherein said resin contains not more than 0.75 times the amount of nitrogen that would be absorbed by the resin from the ambient atmospheric air at a temperature of 20° C. and a pressure of 1 bar (that is, wherein said resin has an nitrogen partial pressure reduced from 0.79 bar to a partial pressure of nitrogen no more than 0.59 bar at a temperature of 20° C.). 16 . In a method of making a three-dimensional object from a light polymerizable polymerizable resin by contacting the polymerizable resin to an optically transparent window in an amount sufficient to produce the object, and then producing an object from said polymerizable resin by continuous liquid interface production, the improvement comprising: (i) solubilizing additional oxygen into said polymerizable resin beyond that amount of oxygen absorbed by the polymerizable resin from the ambient atmosphere before placing the polymerizable resin on said window, (ii) removing nitrogen from said polymerizable resin that has been absorbed by the polymerizable resin from the ambient atmosphere before placing the polymerizable resin on said window, or (iii) both (i) and (ii). 17 . The method of claim 16 , wherein said resin contains at least two times the amount of oxygen that would be absorbed by the resin from the ambient atmospheric air at a temperature of 20° C. and a pressure of 1 bar (that is, wherein said resin has an oxygen partial pressure enhanced from 0.21 bar to a partial pressure of oxygen of at least 0.42 bar at a temperature of 20° C.) (and up to 3 atmospheres of pure oxygen, or more). 18 . The method of claim 16 , wherein said resin contains no more than 0.75 times the amount of nitrogen that would be absorbed by the resin from the ambient atmospheric air at a temperature of 20° C. and a pressure of 1 bar (that is, wherein said resin has an nitrogen partial pressure reduced from 0.79 bar to a partial pressure of nitrogen no more than 0.59 bar at a temperature of 20° C.). 19 . The method of claim 16 , further comprising, after said resin is placed on said window, further (i) solubilizing additional oxygen into said polymerizable resin beyond that amount of oxygen absorbed by the polymerizable resin from the ambient atmosphere during or after placing the polymerizable resin on said window, (ii) removing nitrogen from said polymerizable resin that has been absorbed by the polymerizable resin from the ambient atmosphere during or after placing the polymerizable resin on said window, or (iii) both (i) and (ii).