Superlubricious carbon films derived from natural gas

The invention claimed is: 1. A method of extracting lubricious carbon films from a hydrocarbon gas in a mechanical system comprising the steps of: coating sliding surfaces in a mechanical system with a catalytically active material wherein the catalytically active material is selected from the group consisting of VN—Ni, VN—Cu, MoN—Ni, MoN—Cu, VN—Co, MoN—Co and combinations thereof; pressurizing the mechanical system to a predetermined pressure; maintaining the temperature of the mechanical system in a predetermined range; filling the mechanical system with the hydrocarbon gas, the hydrocarbon gas containing approximately 70-90 percent methane, approximately 0-20% ethane, approximately 0-8% carbon, approximately 0-0.2% oxygen, approximately 0-5% nitrogen and approximately 0-5% hydrogen sulphide; and operating said mechanical system. 2. The method of claim 1 wherein the step of coating includes using a physical vapor deposition system to form a coating of a predetermined thickness. 3. The method of claim 2 wherein the predetermined thickness is between approximately 3 nanometer to approximately 50 micrometer. 4. The method of claim 2 wherein the physical deposition system includes cathodic arc PVD, High Power Impulse Magnetron Sputtering (HIPIMS), ion plating, diode or triode magnetron sputtering, pulse DC and hybrids of the aforementioned methods. 5. The method of claim 1 wherein the predetermined pressure is approximately 3500 psi. 6. The method of claim 1 wherein the predetermined pressure is greater than approximately 14.7 psi and less than approximately 3500 psi. 7. The method of claim 1 wherein the temperature range is between approximately 18 degrees Celsius to approximately 500 degrees Celsius. 8. A method of extracting lubricious carbon films from a hydrocarbon gas in a mechanical system comprising the steps of: coating sliding surfaces in a mechanical system with a catalytically active material; pressurizing the mechanical system to a pressure greater 3500 psi; maintaining the temperature of the mechanical system in a predetermined range; filling the mechanical system with the hydrocarbon gas, the hydrocarbon gas containing approximately 70-90 percent methane, approximately 0-20% ethane, approximately 0-8% carbon, approximately 0-0.2% oxygen, approximately 0-5% nitrogen and approximately 0-5% hydrogen sulphide; and operating said mechanical system. 9. A method of extracting lubricious carbon films from a hydrocarbon gas in a mechanical system comprising the steps of: coating sliding surfaces in a mechanical system with a catalytically active material; pressurizing the mechanical system to a predetermined pressure; maintaining the temperature of the mechanical system in a predetermined range; filling the mechanical system with the hydrocarbon gas, the hydrocarbon gas containing approximately 70-90 percent methane, approximately 0-20% ethane, approximately 0-8% carbon, approximately 0-0.2% oxygen, approximately 0-5% nitrogen and approximately 0-5% hydrogen sulphide wherein the hydrocarbon gas further includes moisture and sulfur dioxide; and operating said mechanical system.