Selective control of oxidation atmospheres in carbon fiber production

What is claimed is: 1. A method for making carbon fiber from a precursor fiber wherein the precursor fiber is subjected to an oxidation treatment in a plurality of oxidation ovens to form an oxidized fiber, said oxidized fiber then being subjected to a carbonization treatment to form said carbon fiber, said plurality of oxidation ovens being surrounded by ambient air which has an ambient air humidity of from 2 to 10 grams of water per kilogram of air and wherein said oxidation treatment comprises the steps of: providing at least a first oxidation oven that defines a first oxidation zone having a first oxidation zone atmosphere comprising first oxidation air which enters said first oxidation zone via one or more first oxidation air entrances, said first oxidation zone atmosphere having a first oxidation atmosphere, humidity wherein said first oxidation air comprises dehumidified ambient air such that said first oxidation atmosphere humidity is from 1 to 3 grams of water per kilogram of air and wherein said first oxidation atmosphere humidity is at least 1 gram of water per kilogram of air less than said ambient air humidity and wherein the temperature or temperatures within said first oxidation zone fall within a first oxidation zone temperature range; passing said precursor fiber through said first oxidation zone to form a partially oxidized fiber; providing a final oxidation oven that defines a final oxidation zone having a final oxidation zone atmosphere comprising said ambient air which enters said final oxidation zone via one or more ambient air entrances wherein the temperature or temperatures within said final oxidation zone fall within a final oxidation zone temperature range which is higher than said first oxidation zone temperature range; passing said partially oxidized fiber through said final oxidation zone to form said oxidized fiber. 2. The method for making a carbon fiber according to claim 1 wherein said precursor fiber is a polyacrylonitrile fiber. 3. The method for making a carbon fiber according to claim 1 wherein said first oxidation zone temperature or temperatures are in the range of from 200° C. to 300° C. and wherein said final oxidation zone temperature or temperatures are in the range of from 200° C. to 300° C. 4. The method for making a carbon fiber according to claim 1 wherein the speed at which said precursor fiber is passed through said first oxidation zone is such that the residence time of said precursor fiber within said first oxidation zone is from 10 minutes to 40 minutes and wherein the speed at which said partially oxidized fiber is passed through said final oxidation zone is such that the residence time of said partially oxidized fiber within said final oxidation zone is from 10 minutes to 40 minutes. 5. The method for making a carbon fiber according to claim 1 wherein said ambient air has an ambient air humidity of from 2 to 4 grams of water per kilogram of air. 6. The method for making a carbon fiber according to claim 1 wherein said final oxidation zone comprises a first temperature sub-zone and a second temperature sub-zone wherein said precursor fiber is passed through said first temperature sub-zone of the final oxidation zone before being passed through said second temperature sub-zone of the final oxidation zone and wherein the temperature in said second temperature sub-zone is higher than the temperature in said first temperature subzone. 7. The method for making a carbon fiber according to claim 1 wherein said first oxidation zone comprises a first temperature sub-zone and a second temperature sub-zone wherein said precursor fiber is passed through said first temperature sub-zone of the first oxidation zone before being passed through said second temperature sub-zone of the first oxidation zone and wherein the temperature in said second temperature sub-zone is higher than the temperature in said first temperature subzone. 8. The method for making a carbon fiber according to claim 7 wherein said final oxidation zone comprises a first temperature sub-zone and a second temperature sub-zone wherein said precursor fiber is passed through said first temperature sub-zone of the final oxidation zone before being passed through said second temperature sub-zone of the final oxidation zone and wherein the temperature in said second temperature sub-zone of the final oxidation zone is higher than the temperature in said first temperature subzone of the final oxidation zone. 9. The method for making a carbon fiber according to claim 7 wherein the temperature in said second temperature sub-zone is from 1° C. to 10° C. higher than the temperature in said first temperature sub-zone. 10. The method for making a carbon fiber according to claim 1 wherein at least a second oxidation oven is provided that defines a second oxidation zone wherein the temperature or temperatures in said second oxidation zone fall within a second oxidation zone temperature range which is higher than said first oxidation zone temperature range and lower than said final oxidation zone temperature range, said second oxidation zone having a second oxidation zone atmosphere comprising second oxidation air wherein said second oxidation air enters said second oxidation zone via one or more second oxidation air entrances, said second oxidation zone atmosphere having a second oxidation atmosphere humidity wherein said second oxidation air comprises dehumidified ambient air such that said second oxidation atmosphere humidity is from 1 to 3 grams of water per kilogram of air and wherein said second oxidation atmosphere humidity is at least 1 gram of water per kilogram of air less than said ambient air humidity and wherein said partially oxidized fiber is passed through said second oxidation zone to form a first further oxidized fiber, said first further oxidized fiber being passed through said final oxidation zone to form said oxidized fiber. 11. The method for making a carbon fiber according to claim 10 wherein said first oxidation zone temperature or temperatures, said second oxidation zone temperature or temperatures and said final oxidation zone temperature or temperatures are all in the range of from 200° C. to 300° C. 12. The method for making a carbon fiber according to claim 10 wherein the speed at which said precursor fiber is passed through said first oxidation zone is such that the residence time of said precursor fiber within said first oxidation zone is from 10 minutes to 40 minutes, wherein the speed at which said partially oxidized fiber is passed through said second oxidation zone is such that the residence time of said partially oxidized fiber within said second oxidation zone is from 10 minutes to 40 minutes and wherein the speed at which said first further oxidized fiber is passed through said final oxidation zone is such that the residence time of said first further oxidized fiber within said final oxidation zone is from 10 minutes to 40 minutes. 13. The method for making a carbon fiber according to claim 10 wherein said ambient air has an ambient air humidity of from 2 to 4 grams of water per kilogram of air. 14. The method for making a carbon fiber according to claim 10 wherein at least a third oxidation oven is provided that defines a third oxidation zone wherein the temperature or temperatures in said third oxidation zone fall within a third oxidation zone temperature range which is higher than said second oxidation zone temperature range and lower than said final oxidation zone temperature range, said third oxidation zone having a third oxidation zone atmosphere comprising third oxidation air wherein said third oxidation air en