Concurrent flow of activating gas in low temperature carburization

The invention claimed is: 1. A process for surface hardening a workpiece made from an iron, nickel and/or chromium based alloy by gas carburization in which an unsaturated hydrocarbon is contacted with the workpiece inside a carburization reactor under a pressure of about 3.5 to 100 torr and at an elevated carburization temperature to cause carbon to diffuse into the workpiece surfaces thereby forming a hardened primary surface layer which is essentially free of carbide precipitates as well as a thermal oxide film, the process further comprising increasing the rate at which carburization occurs by feeding a carbon-free, halogen-containing activating compound to the carburization reactor simultaneously with feeding the unsaturated hydrocarbon to the carburization reactor, wherein the unsaturated hydrocarbon is acetylene, the concentration of the of the unsaturated hydrocarbon inside the carburization reactor is about 8 to 35 vol. % and the concentration of the carbon-free, halogen-containing activating compound inside the carburization reactor is about 0.5 to 3 vol. %. 2. The process of claim 1 , wherein the carbon-free, halogen-containing activating compound is HF, HCl, NF3, F2, Cl2 or a mixture thereof. 3. The process of claim 2 , wherein the workpiece is made from stainless steel and further wherein, prior to contact of the workpiece with the unsaturated hydrocarbon, the workpiece is not activated to remove the coherent, impervious layer of chromium oxide which inherently forms on the surface of the steel. 4. The process of claim 3 , wherein the workpiece is made from an AISI 300 or 400 series stainless steel. 5. The process of claim 4 , further comprising feeding a companion gas to the carburization reactor, the companion gas being a gas which is not an unsaturated hydrocarbon and further which is capable of reacting with oxygen under the conditions encountered during the carburization reaction. 6. The process of claim 5 , wherein the companion gas is hydrogen. 7. The process of claim 3 , wherein the carburization potential of the gas mixture inside the carburization reactor is changed over the course of carburization by at least one of (1) lowering the carburization temperature, (2) lowering the concentration of unsaturated hydrocarbon in the carburizing gas, (3) interrupting the carburization process by terminating the flow of unsaturated hydrocarbon to the carburization reactor while maintaining the workpiece at elevated temperature, and (4) interrupting the carburization process by terminating the flow of unsaturated hydrocarbon to the carburization reactor while maintaining the workpiece at elevated temperature and, during this interruption, reactivating the workpiece by contact with a carbon-free, halogen containing gas. 8. The process of claim 1 , comprising (a) contacting the workpiece inside a carburization reactor with a halogen containing activating compound to at least partially activate the workpiece for low temperature carburization, (b) thereafter feeding an unsaturated hydrocarbon to the carburization reactor under a pressure of about 3.5 to 100 torr and at an elevated carburization temperature to cause carbon to diffuse into the workpiece surfaces thereby forming a hardened primary surface layer which is essentially free of carbide precipitates as well as a thermal oxide film, and (c) simultaneously with step (b) feeding additional amounts of a halogen containing activating compound to the carburization reactor for ˜0.5 minutes to ˜2 hours, after which the feeding of this carbon-free, halogen-containing activating compound to the carburization reactor is terminated while the feeding of the unsaturated hydrocarbon to the carburization reactor is continued. 9. The process of claim 8 , wherein steps (b) and (c) start at the same time. 10. The process of claim 8 , wherein additional amounts of a halogen containing activating compound are fed to the carburization reactor in step (c) for ˜1 minute to ˜1 hour. 11. The process of claim 10 , wherein additional amounts of a halogen containing activating compound are fed to the carburization reactor in step (c) for ˜2 minutes to ˜40 minutes. 12. The process of claim 8 , wherein the feeding of additional amounts of halogen containing activating compound to the carburization reactor in step (c) is terminated early enough to avoid substantial formation of by-product soot. 13. The process of claim 8 , wherein the carburization potential of the gas mixture inside the carburization reactor is changed over the course of carburization by at least one of (1) lowering the carburization temperature, (2) lowering the concentration of unsaturated hydrocarbon in the carburizing gas, (3) interrupting the carburization process by terminating the flow of unsaturated hydrocarbon to the carburization reactor while maintaining the workpiece at elevated temperature, and (4) interrupting the carburization process by terminating the flow of unsaturated hydrocarbon to the carburization reactor while maintaining the workpiece at elevated temperature and, during this interruption, reactivating the workpiece by contact with a carbon-free, halogen containing gas. 14. The process of claim 8 , wherein the carbon-free, halogen-containing activating compound is HF, HCl, NF3, F2, Cl2 or a mixture thereof.