Method and apparatus for curing CO2 composite material objects at near ambient temperature and pressure

What is claimed is: 1. A curing apparatus for material that cures by reaction with a gaseous reagent, comprising: a housing said housing having a plurality of ports, each of said plurality of ports configured to allow gas to enter or exit, at least one of said ports being an inlet and at least one of said ports being an outlet, said housing configured to contain a material to be cured by reaction with a gaseous reagent, said housing configured to permit the control for said gaseous reagent of at least one of a flow rate, a partial pressure, an inlet temperature, an outlet temperature, a gas composition at said inlet and a gas composition at said outlet; a water supply line for providing water vapor into the housing; and a gas conditioning system in communication with the housing, said gas conditioning system comprising a controller and sensors configured to permit the control for the gaseous reagent of at least, one of a flow rate, a partial pressure, and/or an inlet temperature, said gas conditioning system comprising a gas flow oscillator to control a gaseous reagent flow direction in said housing, said gas flow direction being defined as a flow of said gaseous reagent within said housing from a first one or more of said plurality of ports where the gaseous reagent is introduced into the housing to another one or more of said plurality of ports where the gaseous reagent is withdrawn from the housing, said gas flow oscillator configured to repeatedly reverse said gaseous reagent flow direction from time to time. 2. The curing apparatus for material that cures by reaction with a gaseous reagent of claim 1 , wherein said gaseous reagent is CO 2 . 3. The curing apparatus for material that cures by reaction with a gaseous reagent of claim 1 , further comprising a heated bed configured to support said material to be cured by reaction with a gaseous reagent. 4. The curing apparatus for material that cures by reaction with a gaseous reagent of claim 1 , wherein said housing comprises a membrane material, said membrane material being impervious to said gaseous reagent. 5. The curing apparatus for material that cures by reaction with a gaseous reagent of claim 1 , wherein said housing is supported by a pressure of said gaseous reagent. 6. The curing apparatus for material that cures by reaction with a gaseous reagent of claim 1 , wherein said housing comprises support cables. 7. The curing apparatus for material that cures by reaction with a gaseous reagent of claim 1 , wherein said housing comprises ribs. 8. The curing apparatus for material that cures by reaction with a gaseous reagent of claim 1 , further comprising a heater located at a selected one of said inlet and said outlet. 9. The curing apparatus for material that cures by reaction with a gaseous reagent of claim 1 , further comprising a water condenser configured to remove water vapor from said gaseous reagent. 10. The curing apparatus for material that cures by reaction with a gaseous reagent of claim 1 , wherein said gas conditioning system includes valves configured to control said direction of flow of said gaseous reagent. 11. The curing apparatus for material that cures by reaction with a gaseous reagent of claim 1 , further comprising a hygrometer. 12. The curing apparatus for material that cures by reaction with a gaseous reagent of claim 1 , further comprising a humidity measuring device. 13. The curing apparatus for material that cures by reaction with a gaseous reagent of claim 1 , further comprising at least one of a CO 2 flow meter and a CO 2 concentration meter. 14. The curing apparatus for material that cures by reaction with a gaseous reagent of claim 1 , further comprising a temperature measurement device. 15. The curing apparatus for material that cures by reaction with a gaseous reagent of claim 1 , wherein said temperature measurement device is a selected one of a thermocouple, a thermometer and an RTD. 16. The curing apparatus for material that cures by reaction with a gaseous reagent of claim 1 , wherein the housing maintains a pressure in a range of from ambient atmospheric pressure to 50 psi above ambient atmospheric pressure.